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105 <br /> San Joaquin County, California <br /> table alter the drainage of this soil. Elevation is 20 feet 225—Rindge muck, partially drained, 0 to 2 <br /> below sea level to 5 feet above. The average annual percent slopes. This very deep, very poorly drained, <br /> ` precipitation is about 14 inches, the average annual air nearly level soil is on deltas. It formed in hydrophytic <br /> temperature is about 60 degrees F, and the average plant remains derived from reeds and tules and in <br /> frost-free period is about 270 days. alluvium derived from mixed rock sources. Levees, <br /> L Typically, the surface layer is very dark gray mucky drainage ditches, and pumping of the water table alter <br /> silt loam about 12 inches thick. The underlying material the drainage of this soil. Elevation is 20 feet below sea <br /> to a depth of 60 inches is black and very dark brown level to 5 feet above. The average annual precipitation <br /> ` mucky peat. In some areas the surface layer is mucky is about 14 inches, the average annual air temperature <br /> loam or muck. is about 60 degrees F, and the average frost-free period <br /> Included in this unit are small areas of Kingile and is about 270 days. <br /> Venice soils in landscape positions similar to those of Typically, the surface layer is very dark gray muck <br /> �. the Rindge soil. Also included are small areas of Peltier about 13 inches thick. The underlying material to a <br /> and Ryde soils on the slightly higher parts of the depth of 60 inches is very dark brown and very dark <br /> landscape. Included areas make up about 15 percent of gray mucky peat. In some areas the surface layer is <br /> the total acreage. mucky clay loam or mucky loam. <br /> ` Permeability is rapid in the Rindge soil. Available Included in this unit are small areas of Kingile and <br /> water capacity is very high. The effective rooting depth Venice soils in landscape positions similar to those of <br /> of the crops commonly grown in the county is limited by the Rindge soil. Also included are small areas of Peltier <br /> an apparent water table that is regulated at a depth of 3 and Ryde soils on the slightly higher parts of the <br /> to 4 feet by pumping. This soil is subject to subsidence. landscape. Included areas make up about 15 percent of <br /> Runoff is very slow, and the hazard of water erosion is the total acreage. <br /> ` slight. The rate of water intake in irrigated areas is 4.0 Permeability is rapid in the Rindge soil. Available <br /> inches per hour. The hazard of soil blowing is water capacity is very high. The effective rooting depth <br /> moderate. The soil is subject to rare flooding, which of the crops commonly grown in the county is limited by <br /> occurs during years of abnormally high precipitation. an apparent water table that is regulated at a depth of 3 <br /> Most areas are used for irrigated crops. This unit to 4 feet by pumping. This soil is subject to subsidence. <br /> may provide wetland functions and values. These Runoff is very slow, and the hazard of water erosion is <br /> should be considered in plans for enhancement of slight. The rate of water intake in irrigated areas is 4.0 <br /> wildlife habitat or land use conversion. inches per hour. The hazard of soil blowing is severe. <br /> This unit is suited to irrigated row and field crops. The soil is subject to rare flooding, which occurs during <br /> The main limitations are subsidence and the high water years of abnormally high precipitation. <br /> table. General management considerations include the Most areas are used for Irrigated crops. This unit <br /> hazard of soil blowing. Because this soil is subject to may provide wetland functions and values. These <br /> differential subsidence, frequent leveling of the fields is should be considered in plans for enhancement of <br /> needed to improve the efficiency of irrigation. Areas wildlife habitat or land use conversion. <br /> adjacent to levees are subject to lateral seepage in wet This unit is suited to irrigated row and field crops. <br /> years when the water level is high. Careful applications The main limitations are subsidence and the high water <br /> of irrigation water are needed to prevent the buildup of table. General management considerations include the <br /> a high water table. Large ditches and small spud severe hazard of soil blowing. Because this soil is <br /> ditches provide subirrigation and improve drainage. subject to differential subsidence, frequent leveling of <br /> Subirrigation, furrow, border, and sprinkler systems are the fields is needed to improve the efficiency of <br /> suitable. Where a subirrigation system is used, the irrigation. Areas adjacent to levees are subject to lateral <br /> water table is raised to a depth of 1 foot at planting time seepage in wet years when the water level is high. <br /> and then is slowly lowered during the growing season Careful applications of irrigation water are needed to <br /> until it is at a depth of about 5 feet at harvest time. prevent the buildup of a high water table. Large ditches <br /> When the wind velocity is high in spring, the hazard of and small spud ditches provide subirrigation and <br /> ` soil blowing can be reduced by properly managing all improve drainage. Subirrigation, furrow, border, and <br /> crop residue and by minimizing tillage. Levees should sprinkler systems are suitable. Where a subirrigation <br /> be checked periodically, and a proper maintenance system is used, the water table is raised to a depth of 1 <br /> r, program should be developed. foot at planting time and then is slowly lowered during <br /> This map unit is in capability units Illw-10 (MLRA-16), the growing season until it is at a depth of about 5 feet <br /> irrigated, and IVw-10 (MLRA-16), nonirrigated. It is in at harvest time. When the wind velocity is high in <br /> vegetative soil group E. spring, the hazard of soil blowing can be reduced by <br /> r <br />