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Custom Soil Resource Report <br />be overcome without major soil reclamation, special design, or expensive installation <br />procedures. Poor performance and high maintenance can be expected. <br />Numerical ratings in the table indicate the severity of individual limitations. The ratings <br />are shown as decimal fractions ranging from 0.01 to 1.00. They indicate gradations <br />between the point at which a soil feature has the greatest negative impact on the use <br />(1.00) and the point at which the soil feature is not a limitation (0.00). <br />Septic tank absorption fields are areas in which effluent from a septic tank is distributed <br />into the soil through subsurface tiles or perforated pipe. Only that part of the soil <br />between depths of 24 and 72 inches or between a depth of 24 inches and a restrictive <br />layer is evaluated. The ratings are based on the soil properties that affect absorption <br />of the effluent, construction and maintenance of the system, and public health. <br />Saturated hydraulic conductivity (Ksat), depth to a water table, ponding, depth to <br />bedrock or a cemented pan, and flooding affect absorption of the effluent. Stones and <br />boulders, ice, and bedrock or a cemented pan interfere with installation. Subsidence <br />interferes with installation and maintenance. Excessive slope may cause lateral <br />seepage and surfacing of the effluent in downslope areas. <br />Some soils are underlain by loose sand and gravel or fractured bedrock at a depth of <br />less than 4 feet below the distribution lines. In these soils the absorption field may not <br />adequately filter the effluent, particularly when the system is new. As a result, the <br />ground water may become contaminated. <br />Sewage lagoons are shallow ponds constructed to hold sewage while aerobic bacteria <br />decompose the solid and liquid wastes. Lagoons should have a nearly level floor <br />surrounded by cut slopes or embankments of compacted soil. Nearly impervious soil <br />material for the lagoon floor and sides is required to minimize seepage and <br />contamination of ground water. Considered in the ratings are slope, saturated <br />hydraulic conductivity (Ksat), depth to a water table, ponding, depth to bedrock or a <br />cemented pan, flooding, large stones, and content of organic matter. <br />Saturated hydraulic conductivity (Ksat) is a critical property affecting the suitability for <br />sewage lagoons. Most porous soils eventually become sealed when they are used as <br />sites for sewage lagoons. Until sealing occurs, however, the hazard of pollution is <br />severe. Soils that have a Ksat rate of more than 14 micrometers per second are too <br />porous for the proper functioning of sewage lagoons. In these soils, seepage of the <br />effluent can result in contamination of the ground water. Ground -water contamination <br />is also a hazard if fractured bedrock is within a depth of 40 inches, if the water table <br />is high enough to raise the level of sewage in the lagoon, or if floodwater overtops the <br />lagoon. <br />A high content of organic matter is detrimental to proper functioning of the lagoon <br />because it inhibits aerobic activity. Slope, bedrock, and cemented pans can cause <br />construction problems, and large stones can hinder compaction of the lagoon floor. If <br />the lagoon is to be uniformly deep throughout, the slope must be gentle enough and <br />the soil material must be thick enough over bedrock or a cemented pan to make land <br />smoothing practical. <br />Information in this table is intended for land use planning, for evaluating land use <br />alternatives, and for planning site investigations prior to design and construction. The <br />information, however, has limitations. For example, estimates and other data generally <br />apply only to that part of the soil between the surface and a depth of 5 to 7 feet. <br />Because of the map scale, small areas of different soils may be included within the <br />mapped areas of a specific soil. <br />52 <br />