Lithologic Discontinuity

Lithologic Discontinuity
Lithologic discontinuities are significant changes in particle size distribution or mineralogy that represent differences in lithology within a soil. A lithologic discontinuity can also denote an age difference. For information on using horizon designations for lithologic discontinuities, see the Soil Survey Manual (USDA, SCS, 1993). Not everyone agrees on the degree of change required for a lithologic discontinuity. No attempt is made to quantify lithologic discontinuities. The discussion below is meant to serve as a guideline. Several lines of field evidence can be used to evaluate lithologic discontinuities. In addition to mineralogical and textural differences that may require laboratory studies, certain observations can be made in the field. These include but are not limited to the following:
  1. Abrupt textural contacts. An abrupt change in particle-size distribution, which is not solely a change in clay content resulting from pedogenesis, can often be observed.
  2. Contrasting sand sizes. Significant changes in sand size can be detected. For example, if material containing mostly medium sand or finer sand abruptly overlies material containing mostly coarse sand and very coarse sand, one can assume that there are two different materials. Although the materials may be of the same mineralogy, the contrasting sand sizes result from differences in energy at the time of deposition by water and/or wind.
  3. Bedrock lithology vs. rock fragment lithology in the soil. If a soil with rock fragments overlies a lithic contact, one would expect the rock fragments to have a lithology similar to that of the material below the lithic contact. If many of the rock fragments do not have the same lithology as the underlying bedrock, the soil is not derived completely from the underlying bedrock.
  4. Stone lines. The occurrence of a horizontal line of rock fragments in the vertical sequence of a soil indicates that the soil may have developed in more than one kind of parent material. The material above the stone line is most likely transported, and the material below may be of different origin.
  5. Inverse distribution of rock fragments. A lithologic discontinuity is often indicated by an erratic distribution of rock fragments. The percentage of rock fragments decreases with increasing depth. This line of evidence is useful in areas of soils that have relatively unweathered rock fragments.
  6. Rock fragment weathering rinds. Horizons containing rock fragments with no rinds that overlie horizons containing rocks with rinds suggest that the upper material is in part depositional and not related to the lower part in time and perhaps in lithology.
  7. Shape of rock fragments. A soil with horizons containing angular rock fragments overlying horizons containing well rounded rock fragments may indicate a discontinuity. This line of evidence represents different mechanisms of transport (colluvial vs. alluvial) or even different transport distances.
  8. Soil color. Abrupt changes in color that are not the result of pedogenic processes can be used as indicators of discontinuity.
  9. Micromorphological features. Marked differences in the size and shape of resistant minerals in one horizon and not in another are indicators of differences in materials.