Soil horizon

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Soil horizon refers to the layer parallel to the soil surface, whose physical characteristics differ from the layers above and beneath. Each soil horizon may vary in color, texture, structure, and composition. These variations are the result of chemical and physical weathering processes as well as the decomposition of organic matter. Soil horizons are critical in understanding soil classification and management for agricultural, environmental, and engineering purposes.

Formation[edit | edit source]

Soil horizons form through the process of pedogenesis, which is influenced by five main factors: climate, organisms, topography, parent material, and time. These factors interact in various ways to influence soil development and the formation of distinct layers.

Classification[edit | edit source]

The most commonly used system for classifying soil horizons is provided by the Soil Taxonomy developed by the United States Department of Agriculture. The major horizons are designated by the letters O, A, E, B, C, and R.

  • O Horizon: This is the topmost layer, primarily composed of organic material, including decomposed leaves, twigs, and other plant material.
  • A Horizon: Often called the topsoil, this layer is where most biological activity occurs. It is composed of minerals mixed with organic matter.
  • E Horizon: Characterized by the leaching of organic compounds, clay, iron, and aluminum oxides, leading to a lighter color. This process is known as eluviation.
  • B Horizon: Also known as the subsoil, this layer accumulates minerals and organic materials leached from the A and E horizons, a process known as illuviation.
  • C Horizon: Composed of partially altered parent material, this layer has less biological activity and is less affected by pedogenic processes.
  • R Horizon: The bedrock, such as limestone, sandstone, or granite, which lies beneath the C Horizon.

Importance[edit | edit source]

Soil horizons are crucial for various reasons. They can indicate the health and fertility of the soil, affecting plant growth and agricultural productivity. In environmental science, soil horizons play a significant role in water filtration and carbon sequestration. Understanding the characteristics of different soil horizons is also essential in construction and land management for determining the suitability of soil for building foundations, roads, and other structures.

Conservation[edit | edit source]

Soil conservation practices are essential to protect soil horizons from erosion, contamination, and degradation. Techniques such as crop rotation, cover cropping, reduced tillage, and the establishment of windbreaks can help maintain the health and stability of soil horizons.

Contributors: Prab R. Tumpati, MD