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Custom Soil Resource Report <br />The content of sand, silt, and clay affects the physical behavior of a soil. Particle size <br />is important for engineering and agronomic interpretations, for determination of soil <br />hydrologic qualities, and for soil classification. <br />The amount and kind of clay affect the fertility and physical condition of the soil and <br />the ability of the soil to adsorb cations and to retain moisture. They influence shrink - <br />swell potential, saturated hydraulic conductivity (Ksat), plasticity, the ease of soil <br />dispersion, and other soil properties. The amount and kind of clay in a soil also affect <br />tillage and earthmoving operations. <br />Moist bulk density is the weight of soil (ovendry) per unit volume. Volume is measured <br />when the soil is at field moisture capacity, that is, the moisture content at 1/3- or 1/10 - <br />bar (33kPa or 10kPa) moisture tension. Weight is determined after the soil is dried at <br />105 degrees C. In the table, the estimated moist bulk density of each soil horizon is <br />expressed in grams per cubic centimeter of soil material that is Tess than 2 millimeters <br />in diameter. Bulk density data are used to compute linear extensibility, shrink -swell <br />potential, available water capacity, total pore space, and other soil properties. The <br />moist bulk density of a soil indicates the pore space available for water and roots. <br />Depending on soil texture, a bulk density of more than 1.4 can restrict water storage <br />and root penetration. Moist bulk density is influenced by texture, kind of clay, content <br />of organic matter, and soil structure. <br />Saturated hydraulic conductivity (Ksat) refers to the ease with which pores in a <br />saturated soil transmit water. The estimates in the table are expressed in terms of <br />micrometers per second. They are based on soil characteristics observed in the field, <br />particularly structure, porosity, and texture. Saturated hydraulic conductivity (Ksat) is <br />considered in the design of soil drainage systems and septic tank absorption fields. <br />Available watercapacity refers to the quantity of water that the soil is capable of storing <br />for use by plants. The capacity for water storage is given in inches of water per inch <br />of soil for each soil layer. The capacity varies, depending on soil properties that affect <br />retention of water. The most important properties are the content of organic matter, <br />soil texture, bulk density, and soil structure. Available water capacity is an important <br />factor in the choice of plants or crops to be grown and in the design and management <br />of irrigation systems. Available water capacity is not an estimate of the quantity of <br />water actually available to plants at any given time. <br />Linear extensibility refers to the change in length of an unconfined clod as moisture <br />content is decreased from a moist to a dry state. It is an expression of the volume <br />change between the water content of the clod at 1/3- or 1/10 -bar tension (33kPa or <br />10kPa tension) and oven dryness. The volume change is reported in the table as <br />percent change for the whole soil. The amount and type of clay minerals in the soil <br />influence volume change. <br />Linear extensibility is used to determine the shrink -swell potential of soils. The shrink - <br />swell potential is low if the soil has a linear extensibility of less than 3 percent; moderate <br />if 3 to 6 percent; high if 6 to 9 percent; and very high if more than 9 percent. If the <br />linear extensibility is more than 3, shrinking and swelling can cause damage to <br />buildings, roads, and other structures and to plant roots. Special design commonly is <br />needed. <br />Organic matter is the plant and animal residue in the soil at various stages of <br />decomposition. In this table, the estimated content of organic matter is expressed as <br />a percentage, by weight, of the soil material that is less than 2 millimeters in diameter. <br />The content of organic matter in a soil can be maintained by returning crop residue to <br />the soil. <br />25 <br />