2.11: Summary

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One of the most important functions of a soil is to serve as a reservoir for storing precipitation and irrigation water for use by plants. Water is stored in the void spaces between soil particles. When the voids are filled with water, the soil is said to be saturated. A saturated soil rapidly drains to a, more or less, constant moisture level called field capacity (FC). Plants can extract water from the soil until the soil water content reaches the permanent wilting point (WP). At permanent wilt, plants will not recover even if the soil is rewet. The difference between the water content at field capacity and wilting point is called available water capacity (AWC). Finer-textured soils have a higher AWC than coarser-textured soils. AWC ranges from 0.05 to 0.25 inches of water per inch of soil.

The equivalent depth of water stored in a soil layer of known thickness can be determined if the volumetric water content (θ_v) is known. Total available water capacity (TAW) of the root zone is the product of the root zone depth and the AWC. Soil water deficit (SWD) is the amount of water that has been depleted from the TAW. Allowable depletion (AD) is the maximum soil water deficit that should occur before water is applied. Plant water stress will occur if SWD exceeds AD

Water enters the soil by infiltration which is due to capillary and gravitational forces. The process is affected by the method of irrigation. When cumulative infiltration exceeds SWD, water percolates below the reach of plant roots and, simultaneously, leaches dissolved salts and chemicals from the root zone.

Soil water content can be determined by a variety of methods. The simplest and least accurate is by feel. The standard method is collecting soil samples and weighing them before and after oven drying. There are a number of sensors or devices that are buried in the soil from which readings are made to infer soil water content or soil water potential.

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