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4.2 Description/discussion of any existing and/or potential groundwater <br />contamination issues in the general location of the site: Description of existing or potential <br />groundwater contamination issues in the general location of the site are referred to in Section 4.2 <br />of the Soil Suitability Study prepared by Dillon & Murphy that is attached in the Appendix. <br />4.3 Description of the current use of groundwater at the site and of the future expected use <br />of groundwater as related to the proposed development project: <br />Based on the recent results from San Joaquin County's "Flood Control and Water Conservation <br />District" report on groundwater from spring 2018, the estimated depth to groundwater was <br />determined to be approximately 80 feet below the surface. This was verified with the California <br />Department of Water Resource's Water Data Library. The results of the historic depth to ground <br />water show that the relative depth has not changed drastically throughout the years. The proposed <br />improvements will not have a negative effect on the current depth to ground water as the residential <br />uses will require is less water than agriculture. See Appendix for the site's depth groundwater <br />tables and diagrams. <br />5.0 SOURCES AND CALCULATED IMPACT OF NITRATE TO <br />GROUNDWATER <br />5.1 Description of all current off-site sources of nitrate to soil and groundwater in the general <br />up gradient area and the contribution of nitrate load from these sources to the project site: <br />The current off-site sources of nitrates to soil and the groundwater in the general up gradient area <br />are from the neighboring sites. The neighboring sites are comprised of a nursery, residential homes <br />and undeveloped lots. These uses all contribute to the nitrate load in project's area without posing <br />a significant risk. <br />5.2 Description of impact of rainfall contribution of nitrate load to the project site: The <br />impact of rainfall contribution on the project site was completed to determine the nitrate load. The <br />average monthly precipitation and evotranspiration are required to calculate the site nitrate load. <br />These two values are used to estimate the deep percolation. The deep percolation is estimated by <br />analyzing the difference between the monthly average precipitation and the evotranspiration, when <br />the evotranspiration exceeds the monthly average precipitation. These calculations are attached in <br />the Appendix. <br />The data for the potential evotranspiration water was obtained from the California Irrigation <br />Management Information System (CIMIS). The project is located within an area designated as <br />Zone 12. Based on the values for this area along with the average monthly precipitation values <br />obtained from the Western regional Climate Center for the Lodi region an estimate of the deep <br />percolation of rain for the project was determined. Station 70 in Manteca had the most similar <br />weather and soil conditions to our project site. <br />The results for the deep percolation at the site were 5.25 in./year. The nitrate concentration is <br />estimated to be about 1 mg/L-N. (Hantzche and Finnemore, 1992). <br />5.3 Description of all current on-site sources of nitrate to soil and groundwater and the <br />contribution of nitrate load from these sources to the project site: The only source of nitrates <br />.19 <br />