IDENTIFIERS

  • Current Taxon Name (Soil Name): lithic Hapludolls
  • OSD
  • Series Extent
  • User Site ID: S2012MD005001
  • User Pedon ID: S2012MD005001
  • Vegetation Plot ID: S2012MD005001
  • Lab Information:
  • Certified Lab Pedon Description - yes
  • Lab Source ID - SSL
  • Lab Pedon # - 13N0835
  • NCSS Pedon Lab Data NASIS Record ID - 51961
  • Print Date: 11/24/2024

    • LOCATION

  • Location In Web Soil Survey
  • AOI is roughly a square mile and pedon is marked in the center.
  • Location in SoilWeb
  • Location in Google Maps
  • Std. Latitude: 39.4215278
  • Std. Longitude: -76.8416667
  • Datum: WGS84
  • Location Description: About 620' Northwest of the intersection of Deer Park road and Ward Chapel road; 950' North of Ward Chapel road, and 375' West of Deer Park road along west side of BGE power lines in Solders Delight Natural Environmental Area, Baltimore County Maryland.
  • Map Unit: CoC3—Chrome channery silty clay loam, 3 to 15 percent slopes, severely erodedCeD—Chrome silt loam, 15 to 25 percent slopes
  • Country: US—United States
  • State: Maryland
  • County: MD005—Baltimore
  • MLRA: 148—Northern Piedmont
  • Regional Office: SE—Southeast
  • MLRA Soil Survey Area: NE-FRE—Frederick, Maryland
  • Non-MLRA Soil Survey Area: MD005—Baltimore County, Maryland
  • 7.5 Minute USGS Quad: 39076-D7—Reisterstown, Maryland

    • PEDON

  • Describers Name: David Verdone, Aaron Friend
  • Current Taxonomic Class: Loamy, mixed, superactive, mesic Lithic Hapludolls
  • Current Taxon Kind: taxon above family
  • Pedon Type: representative pedon for component
  • Pedon Purpose: ecological site data
  • Pedon Record Orgin: NASIS
  • Correlated Information:
  • Soil Name - lithic Hapludolls
  • PSC - 2 to 21 cm.
  • Classificaton Date - 8/7/2014
  • Classifier - David Verdone
  • Soil Taxonomic Edition - twelfth edition
  • Moisture Class - udic
  • Moisture Subclass - typic
  • Sampled As Information:
  • Soil Name - lithic hapludolls
  • Taxonomic Class - Loamy, mixed, mesic Lithic Hapludolls
  • Taxon Kind - taxon above family
  • PSC - 0 to 21 cm.
  • Classificaton Date - 12/17/2012
  • Classifier - David Verdone
  • Soil Taxonomic Edition - eleventh edition
  • Moisture Class - udic
  • Moisture SUBClass - typic
  • Dynamic Soil Properties:
  • Pedoderm Loose Cover Indicator - no
  • Hydric: no
  • Certification Status: certified
  • QC Status: level 1
  • QA Status: level 1


    • SITE

  • Parent Material: residuum weathered from serpentinite
  • Landscape: piedmont
  • Landform: upland hillslope
  • Geomorphic Component Hills: side slope
  • Hill Slope Profile: backslope
  • Slope Position: middle third
  • Slope Complexity: simple
  • Slope Shape Across: convex
  • Slope Shape Down: linear
  • Runoff: very low
  • Ksat Class Upper: moderately high
  • Ksat Class Lower: moderately high
  • Drainage Class: well
  • Flooding: none flooding
  • Ponding: none ponding
  • Bedrock: very strongly coherent serpentinite at 21cm with <10
  • Surface Fragments: 25.00 percent nonflat subangular very strongly coherent cemented 2- to 75-millimeter serpentinite,
  • Benchmark Soil?: no

    • VEGETATION

    SITE OBSERVATION

  • Observation Date: 12/11/2012 (actual site observation date)
  • Data Collector: David Verdone, Aaron Friend
  • Surface Cover Properties:
  • Site Obs. Cover Kind 1 - grass/herbaceous cover
  • Site Obs. Cover Kind 2 - other grass/herbaceous cover
  • Pedoderm Loose Cover Indicator - no
  • Drained? - no
  • Bedded Soil? - no
  • Forest Plantation? - no
  • Current Weather - partly cloudy
  • Current Air Temp - 12
  • Water Properties:
  • Water pH Method - pH indicator solutions
    • Vegetation Plot Plants
    Plant Symbol Scientific Name National Vernacular Name Plant Type Group Canopy Cover % Vegetation Stata Level

    PIRI

    PIVI2

    SMRO

    Pinus rigida

    Pinus virginiana

    Smilax rotundifolia

    pitch pine

    Virginia pine

    roundleaf greenbrier

    Pedon Restrictions
    Kind Hardness Restriction Depth L-H Restriction Thickness L-RV-H
    cm

    bedrock, lithic

    strongly coherent

    21 - 46

    - 25 -

    Pedon Diagnostic Features
    Feature Kind Feature Depth L-H Feature Thickness L-RV-H
    cm

    mollic epipedon

    lithic contact

    2—18

    21—46

    —16—

    —25—
    Site Soil Temperature
    Site Obs. Date Depth Sensor Kind Temperature
    cm C

    12/11/2012

    Pedon Horizon Bulk Density
    Horizon Depth to Top Depth to Bottom Method Data Collector Field Moist Volume Field Moist Sample Wt. Air Dry Sample Wt. Field Moist Co. Fragment Wt. Air Dry Fragment Wt. Fragment Density Coarse Fragment Volume Air Dry Subsample Wt. Oven Dry Subsample Wt. Grav Soil Moist % Whole Soil Grav Soil Moist % Fine Earth Bulk Density FM Fine Soil Bulk Density FM Whole Soill Bulk Density OD fINE Earth Bulk Density OD Fine Earth Bulk Density Satiated
    cm cm3 g g/cm3 cm3 g % g/cm3

    Oe

    A1

    A2

    BC

    0

    2

    7

    15

    2

    7

    15

    21

    compliant cavity

    scoop

    scoop

    scoop

    DRPV, AKF

    DRPV, AKF

    DRPV, AKF

    DRPV, AKF

    730

    Setting and Climate
    Slope Slope Length USLE Upslope Length Elev. Corr. Elev Aspect MAP REAP FFD MAAT MSAT MWAT MAST MSST MWST MFFP PE Index Climate Station ID Climate Station Name Climate Station Type
    % m degrees mm mm C mm

    10

    45

    194.4

    287

    1170

    173

    12.3

    Oe—0 to 2 centimeters (0.0 to 0.8 inches); black (10YR 2/1) broken face, very dark gray (10YR 3/1) broken face, dry; moderately decomposed plant material; loose; moderate permeability; fragments; clear smooth boundary.; moderately moist when described; observed in pit, small. Complient cavity readings: Initial volume 930+600=1530 final volume 1010+930+320=2260 volume difference 730
    A1—2 to 7 centimeters (0.8 to 2.8 inches); black (10YR 2/1), very dark gray (10YR 3/1), dry; gravelly loam; 17 percent clay; moderate fine granular structure; very friable, nonsticky, nonplastic; moderate permeability; many (7.0) very fine roots throughout and common (3.0) medium roots throughout and many (7.0) fine roots throughout; 17 percent by volume nonflat subangular strongly coherent cemented 2-13-75 millimeter serpentinite fragments observed by visual inspection method; 16378 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Phosphorus avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Sulfur avj. for 3 runs; 4362 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Potassium avj. for 3 runs; 2008 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Calcium avj. for 3 runs; 2465 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Titanium avj. for 3 runs; 6110 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Chromium avj. for 3 runs; 2249 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Manganese avj. for 3 runs; 139882 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Iron avj. for 3 runs; 998 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Colbalt avj. for 3 runs; 3066 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Nickel avj. for 3 runs; 26 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Copper avj. for 3 runs; 149 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Zinc avj. for 3 runs; 11 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Selenium avj. for 3 runs; 25.1 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Rubidium avj. for 3 runs; 21.8 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Strontium avj. for 3 runs; 111 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Zirconium avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Cadmium avj. for 3 runs; 228 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Barium avj. for 3 runs; 132 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Lead avj. for 3 runs; 17886 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Phosphorus avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Sulfur avj. for 3 runs; 2694 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Potassium avj. for 3 runs; 1258 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Calcium avj. for 3 runs; 1113 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Titanium avj. for 3 runs; 1569 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Chromium avj. for 3 runs; 1562 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Manganese avj. for 3 runs; 74478 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Iron avj. for 3 runs; 582 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Colbalt avj. for 3 runs; 2719 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Nickel avj. for 3 runs; 25 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Copper avj. for 3 runs; 115 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Zinc avj. for 3 runs; 10 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Selenium avj. for 3 runs; 11.6 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Rubidium avj. for 3 runs; 7.2 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Strontium avj. for 3 runs; 31 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Zirconium avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Cadmium avj. for 3 runs; 150 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Barium avj. for 3 runs; 68 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Lead avj. for 3 runs; 23613 ppm of XRF-MD EPA Method Trace Metal Analysis for Phosphorusavj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Sulfur avj. for 3 runs; 4559 ppm of XRF-MD EPA Method Trace Metal Analysis for Potassium avj. for 3 runs; 3231 ppm of XRF-MD EPA Method Trace Metal Analysis for Calcium avj. for 3 runs; 2087 ppm of XRF-MD EPA Method Trace Metal Analysis for Titanium avj. for 3 runs; 4440 ppm of XRF-MD EPA Method Trace Metal Analysis for Chromium avj. for 3 runs; 2850 ppm of XRF-MD EPA Method Trace Metal Analysis for Manganese avj. for 3 runs; 123925 ppm of XRF-MD EPA Method Trace Metal Analysis for Iron avj. for 3 runs; 972 ppm of XRF-MD EPA Method Trace Metal Analysis for Colbalt avj. for 3 runs; 3095 ppm of XRF-MD EPA Method Trace Metal Analysis for Nickel avj. for 3 runs; 28 ppm of XRF-MD EPA Method Trace Metal Analysis for Copper avj. for 3 runs; 130 ppm of XRF-MD EPA Method Trace Metal Analysis for Zinc avj. for 3 runs; 16 ppm of XRF-MD EPA Method Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Selenium avj. for 3 runs; 21.9 ppm of XRF-MD EPA Method Trace Metal Analysis for Rubidium avj. for 3 runs; 19.1 ppm of XRF-MD EPA Method Trace Metal Analysis for Strontium avj. for 3 runs; 94 ppm of XRF-MD EPA Method Trace Metal Analysis for Zirconiumavj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Cadmium avj. for 3 runs; 235 ppm of XRF-MD EPA Method Trace Metal Analysis for Barium avj. for 3 runs; 128 ppm of XRF-MD EPA Method Trace Metal Analysis for Lead avj. for 3 runs; neutral, pH 6.6, pH indicator solutions; clear smooth boundary.; moderately moist when described; observed in pit, small. A total of 3 RaCA scoop used for sampining for bulk density L= 9.9cm, W= 9.8cm, H= 5.5cm.
    A2—7 to 15 centimeters (2.8 to 5.9 inches); black (10YR 2/1), dark gray (10YR 4/1), dry; gravelly loam; 19 percent clay; moderate fine subangular blocky parts to weak fine granular structure; very friable, nonsticky, nonplastic; moderate permeability; many (7.0) very fine roots throughout and common (3.0) medium roots throughout and many (7.0) fine roots throughout; 21 percent by volume nonflat subangular strongly coherent cemented 2-13-75 millimeter serpentinite fragments observed by visual inspection method; 17281 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Phosphorus avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Sulfur avj. for 3 runs; 4379 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Potassium avj. for 3 runs; 1126 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Calcium avj. for 3 runs; 1830 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Titanium avj. for 3 runs; 4483 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Chromium avj. for 3 runs; 1816 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Manganese avj. for 3 runs; 144406 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Iron avj. for 3 runs; 1073 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Colbalt avj. for 3 runs; 3670 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Nickel avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Copper avj. for 3 runs; 70 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Zinc avj. for 3 runs; 6 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Selenium avj. for 3 runs; 21.7 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Rubidium avj. for 3 runs; 16.3 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Strontium avj. for 3 runs; 87 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Zirconium avj. for 3 runs; 26 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Cadmium avj. for 3 runs; 214 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Barium avj. for 3 runs; 9 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Lead avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Phosphorus avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Sulfur avj. for 3 runs; 2191 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Potassium avj. for 3 runs; 408 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Calcium avj. for 3 runs; 821 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Titanium avj. for 3 runs; 2014 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Chromium avj. for 3 runs; 1622 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Manganese avj. for 3 runs; 86366 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Iron avj. for 3 runs; 512 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Colbalt avj. for 3 runs; 3260 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Nickel avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Copper avj. for 3 runs; 39 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Zinc avj. for 3 runs; 4 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Selenium avj. for 3 runs; 5.6 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Rubidiium avj. for 3 runs; 4.7 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Strontium avj. for 3 runs; 21 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Zirconium avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Cadmium avj. for 3 runs; 116 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Barium avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Lead avj. for 3 runs; 19426 ppm of XRF-MD EPA Method Trace Metal Analysis for Phosphorus avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Sulfur avj. for 3 runs; 4436 ppm of XRF-MD EPA Method Trace Metal Analysis for Potassium avj. for 3 runs; 1941 ppm of XRF-MD EPA Method Trace Metal Analysis for Calcium avj. for 3 runs; 1997 ppm of XRF-MD EPA Method Trace Metal Analysis for Titanium avj. for 3 runs; 3753 ppm of XRF-MD EPA Method Trace Metal Analysis for Chromium avj. for 3 runs; 2236 ppm of XRF-MD EPA Method Trace Metal Analysis for Manganese avj. for 3 runs; 139782 ppm of XRF-MD EPA Method Trace Metal Analysis for Iron avj. for 3 runs; 1042 ppm of XRF-MD EPA Method Trace Metal Analysis for Colbalt avj. for 3 runs; 3697 ppm of XRF-MD EPA Method Trace Metal Analysis for Nickel avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Copper avj. for 3 runs; 55 ppm of XRF-MD EPA Method Trace Metal Analysis for Zinc avj. for 3 runs; 7 ppm of XRF-MD EPA Method Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Selenium avj. for 3 runs; 20.9 ppm of XRF-MD EPA Method Trace Metal Analysis for Rubidium avj. for 3 runs; 15.6 ppm of XRF-MD EPA Method Trace Metal Analysis for Strontium avj. for 3 runs; 82 ppm of XRF-MD EPA Method Trace Metal Analysis for Zirconium avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Cadmium avj. for 3 runs; 212 ppm of XRF-MD EPA Method Trace Metal Analysis for Barium avj. for 3 runs; 9 ppm of XRF-MD EPA Method Trace Metal Analysis for Lead avj. for 3 runs; neutral, pH 6.8, pH indicator solutions; clear smooth boundary.; moderately moist when described; observed in pit, small. A total of 3 RaCA scoop used for sampining for bulk density L= 9.9cm, W= 9.8cm, H= 5.5cm.
    BC—15 to 21 centimeters (5.9 to 8.3 inches); dark yellowish brown (10YR 3/6) gravelly clay loam; 23 percent clay; weak fine subangular blocky structure; very friable, nonsticky, slightly plastic; moderate permeability; many (7.0) very fine roots throughout and common (3.0) medium roots throughout and many (7.0) fine roots throughout; 27 percent by volume nonflat subangular strongly coherent cemented 2-13-75 millimeter serpentinite fragments observed by visual inspection method; 15423 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Phosphorus avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Sulfur avj. for 3 runs; 3456 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Potassium avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Calcium avj. for 3 runs; 959 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Titanium avj. for 3 runs; 3008 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Chromium avj. for 3 runs; 2077 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Manganese avj. for 3 runs; 129978 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Iron avj. for 3 runs; 1153 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Colbalt avj. for 3 runs; 3312 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Nickel avj. for 3 runs; 38 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Copper avj. for 3 runs; 49 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Zinc avj. for 3 runs; 7 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Selenium avj. for 3 runs; 18.3 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Rubidium avj. for 3 runs; 9.7 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Strontium avj. for 3 runs; 29 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Zirconium avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Cadmium avj. for 3 runs; 163 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Barium avj. for 3 runs; 0 ppm of XRF-MD SF <2mm fine Trace Metal Analysis for Lead avj. for 3 runs; 10533 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Phosphorus avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Sulfur avj. for 3 runs; 2775 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Potassium avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Calcium avj. for 3 runs; 779 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Titanium avj. for 3 runs; 1105 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Chromium avj. for 3 runs; 1693 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Manganese avj. for 3 runs; 99451 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Iron avj. for 3 runs; 665 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Colbalt avj. for 3 runs; 2919 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Nickel avj. for 3 runs; 21 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Copper avj. for 3 runs; 31 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Zinc avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Selenium avj. for 3 runs; 14.3 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Rubidiium avj. for 3 runs; 5.7 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Strontium avj. for 3 runs; 15 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Zirconium avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Cadmium avj. for 3 runs; 109 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Barium avj. for 3 runs; 0 ppm of XRF-MD SF >2mm coarse Trace Metal Analysis for Lead avj. for 3 runs; 16446 ppm of XRF-MD EPA Method Trace Metal Analysis for Phosphorus avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Sulfur avj. for 3 runs; 3519 ppm of XRF-MD EPA Method Trace Metal Analysis for Potassium avj. for 3 runs; 556 ppm of XRF-MD EPA Method Trace Metal Analysis for Calcium avj. for 3 runs; 968 ppm of XRF-MD EPA Method Trace Metal Analysis for Titanium avj. for 3 runs; 2122 ppm of XRF-MD EPA Method Trace Metal Analysis for Chromium avj. for 3 runs; 2234 ppm of XRF-MD EPA Method Trace Metal Analysis for Manganese avj. for 3 runs; 121070 ppm of XRF-MD EPA Method Trace Metal Analysis for Iron avj. for 3 runs; 966 ppm of XRF-MD EPA Method Trace Metal Analysis for Colbalt avj. for 3 runs; 3261 ppm of XRF-MD EPA Method Trace Metal Analysis for Nickel avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Copper avj. for 3 runs; 31 ppm of XRF-MD EPA Method Trace Metal Analysis for Zinc avj. for 3 runs; 5 ppm of XRF-MD EPA Method Trace Metal Analysis for Arsenic avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Selenium avj. for 3 runs; 18.6 ppm of XRF-MD EPA Method Trace Metal Analysis for Rubidium avj. for 3 runs; 7.9 ppm of XRF-MD EPA Method Trace Metal Analysis for Strontium avj. for 3 runs; 24 ppm of XRF-MD EPA Method Trace Metal Analysis for Zirconium avj. for 3 runs; 0 ppm of XRF-MD EPA Method Trace Metal Analysis for Cadmium avj. for 3 runs; 128 ppm of XRF-MD EPA Method Trace Metal Analysis for Barium avj. for 3 runs; 9 ppm of XRF-MD EPA Method Trace Metal Analysis for Lead avj. for 3 runs; neutral, pH 7.0, pH indicator solutions; abrupt smooth boundary.; moderately moist when described; observed in pit, small. A total of 2 RaCA scoop used for sampining for bulk density L= 9.9cm, W= 9.8cm, H= 5.5cm.
    R—21 to 46 centimeters (8.3 to 18.1 inches); bedrock; few (0.5) very fine roots in cracks; fragments.; observed in pit, small