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Lecture 2a – Soil Texture Soil Texture = %Sand, Silt & Clay in a soil.

Lecture 2a – Soil Texture Soil Texture = %Sand, Silt & Clay in a soil. Soil texture is the single most important physical property of the soil. Knowing the soil texture alone will provide information about: 1) water flow potential, 2) water holding capacity, 3) fertility potential,

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Lecture 2a – Soil Texture Soil Texture = %Sand, Silt & Clay in a soil.

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  1. Lecture 2a – Soil TextureSoil Texture = %Sand, Silt & Clay in a soil. • Soil texture is the single most important physical property of the soil. Knowing the soil texture alone will provide information about: • 1) water flow potential, • 2) water holding capacity, • 3) fertility potential, • 4) suitability for many urban uses like bearing capacity

  2. Texture • The Percent of sand, silt, clay in a soil sample • Critical for understanding soil behavior and management • Soil texture is not subject to change in the field but can be changed in potting mixes.

  3. Particle Diameter Size • Soil particle diameters range over 6 orders of magnitude • 2 m boulders • Coarse fragments > 2 mm • Sand < 2 mm to 0.05 mm • Silt < 0.05 mm to 0.002 mm • Clay < 0.002 mm

  4. Coarse Fragment • > 2 mm • Gravels, cobbles, boulders • Not considered part of fine earth fraction (soil texture refers only to the fine earth fraction or sand, silt & clay) • Boulders left in valley of Big Horn Mts.(Wy) by a glacier.

  5. Sand • < 2 mm to > 0.05 mm • Visible without microscope • Rounded or angular in shape • Sand grains usually quartz if sand looks white or many minerals if sand looks brown, • Some sands in soil will be brown, yellow, or red because of Fe and/or Al oxide coatings.

  6. Sand • Feels gritty • Considered non-cohesive – does not stick together in a mass unless it is very wet.

  7. Sand • Low specific surface area • Sand has less nutrients for plants than smaller particles • Voids between sand particles promote rapid permeability of water and entry of air • Holds little water and prone to drought

  8. Silt • < 0.05 mm to > 0.002 mm • Not visible without microscope • Quartz often dominant mineral in silt since other minerals have weathered away.

  9. Silt • Does not feel gritty • Floury feel –smooth like silly putty • Wet silt does not exhibit stickiness or plasticity or malleability

  10. Silt • Smaller size allows rapid weathering of non quartz minerals • Smaller particles – retains more water for plants and have slower permeability than sand. • Easily washed away by flowing water – highly erosive. • Holds more plant nutrients than sand.

  11. Silt is responsible for silting over gravel beds in rivers that are needed by fish for spawning. www.pedrocreek.org/ fishcommittee.html

  12. Loess Cliff in China • Silt if often left as a vertical face since in this condition the landscape is less prone to water erosion than if the area was graded to a slope.

  13. Source of Silt – ground up sand

  14. Clay • < 0.002 mm • Flat plates or tiny flakes • Small clay particles are colloids • If suspended in water will not settle • Large surface area • spoonful = football field

  15. Clay • Wet clay is very sticky and is plastic or it can be molded readily into a shape or rod. • Easily formed into long ribbons • Shrink swell – none to considerable depending on the kind of clay.

  16. Clay • Pores spaces are very small and convoluted • Movement of water and air very slow • Water holding capacity • Tremendous capacity to adsorb water- not all available for plants. • Soil strength- shrink/swell affects buildings, roads and walls. • Chemical adsorption is large

  17. Dyad What do you think would be an ideal proportion of sand, silt and clay for a soil that would be good for plant growth? Sand: ______% Silt: _______% Clay: ______%

  18. USDA Textural Classes • Sandy soils (coarse) • Fine sand • Very fine sand • Loamy soils (medium) • Clayey soils (fine)

  19. Textural Triangle

  20. Sandy Soils • Coarse texture • Sands • Loamy sands

  21. Loamy Soils • Moderately coarse texture • Sandy loam • Fine sandy loam

  22. Loamy Soils- Coarse • Medium texture • Very fine sandy loam • Loam • Silt loam • Silt

  23. Loamy Soils - Fine • Moderately fine texture • Sandy clay loam • Clay loam • Silty clay loam

  24. Clayey Soils • Fine texture • Silty clay • Clay • Sandy clay

  25. Changing Soil Texture • Soil texture can be changed only by mixing with another soil with a different textural class in small quantities

  26. Changing Soil Texture • Adding sand to a clay soil creates a cement like substance • Find soil with native texture properties you want– don’t try to make the texture you want. • Adding peat or compost to a mineral soil is not considered changing the texture – since it only adds organic matter not sand, silt or clay

  27. Changes in soil texture • Over long periods (1000s yrs) pedologic processes alter soil horizon textures. • As soils get older sand and silt weather to clay….therefore old soils have more clay.

  28. Clay translocation = B horizon formation • Clay also translocates down in the soil profile so subsoils generally have more clay than topsoils. • Thus ‘Argillic’ horizons form and are zones of clay accumulation Argillic =

  29. Textural Profile of a soil. • The graph of the % clay from the surface to the parent material will show if a soil has a clay bulge or an increase in clay. • “Textural Profiles” aid in looking for the clay bulge. Argillic =

  30. Soil Texture • Soil texture can also be determined by feeling the soil. • This procedure takes practice but eventually a person can become very proficient and will be able to estimate the % clay within 3% of the actual value.

  31. Determining Soil Texture - Feel Method • Wet soil in hand • Make ribbon • Length of ribbon indicates clay content • Grit or lack of grit indicates sand or silt • Smoothness indicates silt

  32. Determining Soil Texture –Hydrometer Method • The velocity of settling (V) is proportional to the square of particle diameters (d) • Bigger particles settle more quickly • Density of the water (due to suspended silt and clay) holds up hydrometer • Stokes Law • V = kd2

  33. Hydrometer method • Carefully stir soil by gently lifting stirring rod. • Hydrometer used to measure amount of silt and clay in suspension after 40 seconds • Or reading No. 1 = silt and clay in suspension and if we subtract it from total soil this equals amount of sand. • Or % sand = total soil –reading one÷total soil x100

  34. Hydrometer method Slowly inserting hydrometer 2 hour measurement determines suspended clay or what is left after silt has settled out. %clay = reading two÷total soil x 100 % silt determined by subtraction (reading #1) – (reading #2)=silt %Silt= 100 – [(% sand) + (% clay)]

  35. <--What causes the layers?

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