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p � y <br /> !l <br /> } Groundwater <br /> Currently, the City operates 22 groundwater wells in North Stockton, 5 groundwater wells in South <br /> Stockton, and 3 in the Diamond Walnut Water System. The 22 wells in the north provide groundwater <br /> which, combined with surface water from SEWD, make up the water supply for the North Stockton <br /> system. The 5 wells in the South Stockton water system provide the water for that system exclusively. <br /> The City's Master Water Plan calls for the continued construction of wells until an adequate long term <br /> supply of surface water can be obtained which will sufficiently meet both base and peaking requirements. <br /> F" Historically, combined annual groundwater pumping for municipal and agricultural uses has exceeded the <br /> safe yield of about 13,300 acre-feet for the northern portion of the basin and has caused a lowering of the <br /> ground water level.' Although overdrafting has caused a deterioration of water quality in some wells due <br /> to the intrusion of poor quality water into the basin, the City's groundwater is generally of good quality, <br /> F with sequestering of iron and manganese, and chlorination being the only treatment required. Iron and <br /> manganese sequestering is utilized only at a few wells which exceed the secondary contaminant levels for <br /> those constituents. Water from all wells is chlorinated prior to distribution to customers. <br /> s k . <br /> Salt water intrusion from connate brines under the Delta into Stockton's western regions threatens <br /> groundwater quality, and small annual increases in salinity have been noted during years with low surface <br /> water availability. However, due to additional surface water deliveries in recent wet years, groundwater <br /> has risen to pre-drought levels and the salt water intrusion condition has been somewhat relieved. <br /> A study prepared for SEWD indicates that the use of fertilizers and pesticides has also impacted <br /> groundwater quality in the Stockton area. The study identified three areas within the Stockton groundwater <br /> basin for which there is a significant potential for migration of contaminants within the next 30 years. Two <br /> of these three areas are located within the City's service area. one in North Stockton and one in South <br /> Stockton.' <br /> i F <br /> Surface Water <br /> FUntil 1977, groundwater was the sole source of supply for domestic water users in the Stockton area. A <br /> supplemental surface water supply was established in 1977 when the SEWD water treatment plant began <br /> operation. The SEWD plant currently has an approved treatment capacity of up to 45 million gallons per <br /> Fday and the main source of supply to this plant is Calaveras River water. This water, which is stored in <br /> New Hogan Reservoir, is diverted from the Calaveras River at Beklota and transported through a 12 mile <br /> long, 54-inch diameter pipeline to the Plant. After treatment, water is distributed under a water supply <br /> Fcontract between the City, Cal Water, and the County in proportion to the total amount of water use that <br /> each agency comprises in the Stockton region. The City's current allocation accounts for approximately <br /> 42 percent of the SEWD Treatment Plant output. Cal-Water's allocation accounts for 56 percent and 2 <br /> Fpercent is delivered to County Maintenance Districts through the.City of Stockton's distribution system. <br /> SEWD is currently allotted an average of 84,000 acre-feet of Calaveras River water per year from New <br /> Hogan Reservoir; however, 44% of this amount is an interim supply in accordance with a decision by the <br /> State Water Resources Control Board, which recognized the area of origin rights of Calaveras County to <br /> ! this supply.3 <br /> It �I <br />