IDENTIFIERS

  • Current Taxon Name (Soil Name): Waller
  • OSD
  • Series Extent
  • User Site ID: S00TX457004
  • User Pedon ID: S00TX457004
  • Transect:
  • Transect Stop Number - 4
  • Lab Information:
  • Certified Lab Pedon Description - yes
  • Lab Source ID - TAMU
  • Lab Pedon # - S00TX457004
  • NCSS Pedon Lab Data NASIS Record ID - 45555
  • Print Date: 4/25/2025

    • 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: 30.5397491
  • Std. Longitude: -94.2057800
  • Datum: WGS84
  • Location Description: County-Tyler; Series-Waller; Classification-fine,loamy,typic,glossaqualf; Slope-1%; Microrelief-3'; Land Use-Forest; Assoc. Soils-Sorter,Dallardsville,Kirbyville,Lelauale; Quad Name-Fred, TX
  • State: Texas
  • MLRA: 152B—Western Gulf Coast Flatwoods

    • PEDON

  • Describers Name: JKW, REL
  • Current Taxonomic Class: Fine-loamy, siliceous, active, thermic Typic Glossaqualfs
  • Pedon Record Orgin: NASIS
  • Correlated Information:
  • Soil Name - Waller
  • Classificaton Date - 5/21/2012
  • Soil Taxonomic Edition - eleventh edition
  • Sampled As Information:
  • Soil Name - Waller
  • Classificaton Date - 7/19/2000
  • Dynamic Soil Properties:
  • Pedoderm Loose Cover Indicator - no
  • Hydric: no


    • SITE

  • Geology: Lissie formation.
  • Surface Fragments:
  • Benchmark Soil?: no

    • VEGETATION

    SITE OBSERVATION

  • Observation Date: 7/19/2000 (actual site observation date)
  • Air Photo ID: 8691-49
  • Surface Cover Properties:
  • Pedoderm Loose Cover Indicator - no
  • Drained? - no
  • Bedded Soil? - no
  • Forest Plantation? - no
    • 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

    A—0 to 9 centimeters (0.0 to 3.5 inches); weak medium and coarse prismatic parts to weak fine and medium subangular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to weak fine subangular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to moderate medium angular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to weak medium angular blocky, and weak medium prismatic parts to weak fine and medium subangular blocky, and weak medium prismatic parts to weak medium subangular blocky, and weak medium prismatic parts to weak fine subangular blocky, and weak medium prismatic parts to weak medium subangular blocky, and weak medium prismatic parts to moderate medium angular blocky, and weak medium prismatic parts to weak medium subangular blocky, and weak medium prismatic parts to weak medium angular blocky, and moderate medium prismatic parts to weak fine and medium subangular blocky, and moderate medium prismatic parts to weak medium subangular blocky, and moderate medium prismatic parts to weak fine subangular blocky, and moderate medium prismatic parts to weak medium subangular blocky, and moderate medium prismatic parts to moderate medium angular blocky, and moderate medium prismatic parts to weak medium subangular blocky, and moderate medium prismatic parts to weak medium angular blocky, and weak medium and coarse prismatic parts to weak fine and medium subangular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to weak fine subangular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to moderate medium angular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to weak medium angular blocky, and weak medium and coarse prismatic parts to weak fine and medium subangular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to weak fine subangular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to moderate medium angular blocky, and weak medium and coarse prismatic parts to weak medium subangular blocky, and weak medium and coarse prismatic parts to weak medium angular blocky, and weak coarse prismatic parts to weak fine and medium subangular blocky, and weak coarse prismatic parts to weak medium subangular blocky, and weak coarse prismatic parts to weak fine subangular blocky, and weak coarse prismatic parts to weak medium subangular blocky, and weak coarse prismatic parts to moderate medium angular blocky, and weak coarse prismatic parts to weak medium subangular blocky, and weak coarse prismatic parts to weak medium angular blocky, and weak coarse prismatic parts to weak fine and medium subangular blocky, and weak coarse prismatic parts to weak medium subangular blocky, and weak coarse prismatic parts to weak fine subangular blocky, and weak coarse prismatic parts to weak medium subangular blocky, and weak coarse prismatic parts to moderate medium angular blocky, and weak coarse prismatic parts to weak medium subangular blocky, and weak coarse prismatic parts to weak medium angular blocky, and weak fine and medium granular structure; 6.0 very fine roots and 2.0 very fine roots and 2.0 very fine roots and 1.0 very fine roots and 1.0 very fine roots and 10.0 very fine roots and 1.0 very fine roots and 1.0 very fine roots and 3.0 medium roots and 2.0 medium roots and 1.0 medium roots and 2.0 fine roots and 10.0 fine roots and 1.0 fine roots and 4.0 fine roots and 2.0 fine roots and 3.0 fine roots and 2.0 coarse roots; 1.0 very fine tubular and 1.0 very fine tubular and 1.0 medium irregular and 3.0 medium irregular and 1.0 medium tubular and 1.0 medium irregular and 3.0 medium tubular and 3.0 medium irregular and 3.0 fine irregular and 2.0 fine tubular and 1.0 fine tubular and 2.0 fine irregular and 3.0 fine irregular and 2.0 fine irregular and 2.0 coarse irregular pores; 1 percent fine prominent black (N 2/0) iron-manganese masses with sharp boundaries in matrix and 1 percent fine prominent black (N 2/0) iron-manganese masses with sharp boundaries throughout and 2 percent extremely coarse prominent red (10R 5/6) plinthite nodules with sharp boundaries in matrix and 2 percent extremely coarse prominent red (10R 4/6) plinthite nodules with sharp boundaries in matrix and 2 percent fine prominent black (N 2/0) iron-manganese masses with sharp boundaries in matrix and 2 percent fine distinct yellowish brown (10YR 5/8) masses of oxidized iron with clear boundaries and 3 percent extremely coarse prominent red (2.5YR 5/6) ironstone nodules with sharp boundaries in matrix and 3 percent fine prominent black (N 2/0) iron-manganese masses with sharp boundaries in matrix and 4 percent fine prominent strong brown (7.5YR 5/6) masses of oxidized iron with clear boundaries and 4 percent fine prominent black (N 2/0) iron-manganese masses with sharp boundaries throughout and 4 percent fine distinct yellowish brown (10YR 5/6) masses of oxidized iron with clear boundaries and 5 percent fine prominent strong brown (7.5YR 5/6) masses of oxidized iron with sharp boundaries and 6 percent very coarse distinct red (2.5YR 4/6) masses of oxidized iron with clear boundaries in matrix and 6 percent fine prominent strong brown (7.5YR 5/6) masses of oxidized iron with clear boundaries and 7 percent very coarse prominent strong brown (7.5YR 5/8) masses of oxidized iron with clear boundaries in matrix and 7 percent very coarse prominent light gray (2.5Y 7/1) iron depletions with sharp boundaries in matrix and 8 percent extremely coarse prominent light gray (5Y 7/1) iron depletions with diffuse boundaries on faces of peds and 10 percent extremely coarse prominent reddish gray (2.5YR 6/1) iron depletions with clear boundaries on faces of peds and 10 percent fine prominent red (2.5YR 5/6) masses of oxidized iron with sharp boundaries in matrix and 11 percent medium prominent red (2.5YR 4/6) masses of oxidized iron with sharp boundaries in matrix and 12 percent fine prominent pink (7.5YR 7/3) masses of oxidized iron with clear boundaries throughout and 14 percent very coarse prominent red (2.5YR 5/6) masses of oxidized iron with sharp boundaries in matrix and 14 percent very coarse distinct brownish yellow (10YR 6/6) masses of oxidized iron with diffuse boundaries in matrix and 15 percent fine prominent reddish yellow (7.5YR 6/6) masses of oxidized iron with clear boundaries in matrix and 16 percent very coarse distinct brownish yellow (10YR 6/6) masses of oxidized iron with clear boundaries in matrix and 17 percent very coarse prominent red (2.5YR 5/6) masses of oxidized iron with sharp boundaries in matrix and 18 percent medium faint light yellowish brown (10YR 6/4) iron-manganese masses with clear boundaries in matrix and 23 percent very coarse prominent strong brown (7.5YR 5/8) masses of oxidized iron with clear boundaries in matrix; fragments; very strongly acid, pH 4.5; clear smooth boundary. Lab sample # TAMU6622
    Eg1—9 to 22 centimeters (3.5 to 8.7 inches); fragments; extremely acid, pH 4.4; clear smooth boundary. Lab sample # TAMU6623
    Eg2—22 to 37 centimeters (8.7 to 14.6 inches); fragments; extremely acid, pH 4.4; clear smooth boundary. Lab sample # TAMU6624
    Eg/Btg—37 to 65 centimeters (14.6 to 25.6 inches); fragments; extremely acid, pH 4.4; gradual smooth boundary. Lab sample # TAMU6625
    Btg/Eg—65 to 94 centimeters (25.6 to 37.0 inches); fragments; very strongly acid, pH 4.6; gradual wavy boundary. Lab sample # TAMU6626
    Bt/Eg1—94 to 126 centimeters (37.0 to 49.6 inches); fragments; very strongly acid, pH 4.7; gradual wavy boundary. Lab sample # TAMU6627
    Bt/Eg2—126 to 165 centimeters (49.6 to 65.0 inches); 1 percent faint gray (10YR 6/1) clay films on all faces of peds and 3 percent prominent light gray (5Y 7/1) clay films on all faces of peds and 3 percent distinct yellowish brown (10YR 5/6) clay films on all faces of peds and 4 percent prominent strong brown (7.5YR 5/8) clay films on all faces of peds; fragments; very strongly acid, pH 4.8; gradual wavy boundary. Lab sample # TAMU6628
    Bt/Eg3—165 to 203 centimeters (65.0 to 79.9 inches); fragments; very strongly acid, pH 4.8. Lab sample # TAMU6629