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n <br /> 118 Soil Survey <br /> main limitation is low rainfall during the growing season. 16 inches thick. The next 10 inches of the subsoil is a <br /> Because the amount of precipitation is not sufficient for claypan of brown clay. The lower part to a depth of 6( <br /> annual cropping, the best suited cropping system is one inches is a brown and fight brown, indurated hardpan. <br /> that includes small grain and summer fallow. In some areas the surface layer is fine sandy loam or <br /> Maintaining crop residue on or near the surface helps to sandy loam. <br /> prevent excessive runoff and helps to maintain filth and Permeability is very slow in the San Joaquin soil th <br /> the organic matter content. <br /> does not have a thick surface layer. Available water <br /> .. If this unit is used for homesite development, the capacity is low. The shrink-swell potential is high. The <br /> main limitations are depth to the very slowly permeable effective rooting depth is limited by the hardpan at a <br /> claypan and hardpan, the high shrink-swell potential, depth of 20 to 40 inches. Roots are restricted to crack <br /> and low strength in the claypan. On sites for septic tank and the faces of peds in the claypan, which is at a <br /> absorption fields, the very slow permeability can be depth of 10 to 20 inches. Water is briefly perched abc <br /> overcome by increasing the size of the absorption field, the claypan and hardpan after periods of heavy rainfa <br /> F, backfilling the trench with sandy material, and installing or irrigation. Runoff is very slow, and the hazard of <br /> long absorption lines. Ripping the hardpan improves water erosion is slight. The rate of water intake in <br /> permeability and thus also improves the suitability of the irrigated areas is 1.0 inch per hour. <br /> soil for septic tank absorption fields. Excavation for The San Joaquin soil that has a thick surface layer <br /> buildings is limited by the hardpan. Properly designing moderately deep to a hardpan and is moderately well <br /> foundations and footings and diverting runoff away from drained. It formed in alluvium derived from granitic roc <br /> buildings help to prevent the structural damage caused sources. Typically, the surface layer is pinkish gray <br /> by shrinking and swelling. Properly designing buildings loam about 12 inches thick. The upper 14 inches of tl- <br /> and roads can offset the limited ability of the soil to subsoil is brown sandy clay loam. The next 9 inches i <br /> support a load. brown clay. The lower part to a depth of 60 inches is . <br /> This map unit is in capability units Ills-3 (MCRA-17), brown and light brown, indurated hardpan. In some <br /> irrigated, and IVs-3 (MLRA-17), nonirrigated. It is in areas the surface layer is fine sandy loam or sandy <br /> vegetative soil group D. loam. <br /> � Permeability is very slow in the San Joaquin soil th <br /> d 241—San Joaquin complex, 0 to 1 percent slopes. has a thick surface layer. Available water capacity is <br /> These nearly level soils are on low terraces. The native moderate. The shrink-swell potential is high. The <br /> vegetation is mainly annual grasses, (orbs, and effective rooting depth is limited by the hardpan at a <br /> �{ scattered California white oak. Elevation is 20 to 110 depth of 20 to 40 inches. Roots are restricted to crack <br /> feet. The average annual precipitation is about 16 and the faces of peds in the claypan, which is at a <br /> inches, the average annual air temperature is about 61 depth of 20 to 30 inches. Water is briefly perched abo <br /> ! '.1 degrees F, and the average frost-free period is about the claypan and hardpan after periods of heavy rainfa <br /> 275 days. or irrigation. Runoff is very slow. and the hazard of <br /> This unit is 45 percent San Joaquin loam and 40 water erosion is slight. The rate of water intake in <br /> percent San Joaquin loam, thick surface. The irrigated areas is 1.0 inch per hour. <br /> ll. components of this unit occur as areas so intricately Most areas are used as irrigated pasture. A few <br /> intermingled that it was not practical to map them areas are used for homesite development or for <br /> separately at the scale used. irrigated crops. This unit may provide wetland functior <br /> �i <br /> Included in this unit are small areas of Exeter and and values. These should be considered in plans for <br /> Rocklin soils on adjacent terraces. Also included, in enhancement of wildlife habitat or land use conversior <br /> landscape positions similar to those of the San Joaquin This unit is suited to irrigated pasture. The main <br /> soils, are small areas of moderately coarse textured limitation is the low available water capacity in some <br /> soils that have a hardpan at a depth of 10 to 20 inches areas. Because of droughtiness, applications of <br /> and moderately coarse textured soils that have been irrigation water should be light and frequent. The wate <br /> ripped and have remnants of claypan and hardpan can be applied by sprinkler and border methods. Prop <br /> li.] material. Included areas make up about 15 percent of stocking rates, pasture rotation, and restricted grazing <br /> the total acreage. during wet periods help to keep the pasture in good <br /> The San Joaquin soil that does not have a thick condition and protect the soils from compaction. <br /> surface layer is moderately deep to a hardpan and is If this unit is used for homesite development, the <br /> moderately well drained. It formed in alluvium derived main limitations are depth to the very slowly permeabl <br /> from granitic rock sources. Typically, the surface layer claypan and hardpan, the high shrink-swell potential, <br /> and the upper part of the subsoil are brown loam about and low strength in the claypan. On sites for septic tai <br /> ' i <br />