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As required by the laboratory, the sample was collected in a plastic container and two <br />glass vials for nitrate and DBCP analysis, respectively. Trip blanks were also utilized. <br />The sample was placed on ice and transported under chain of custody to FGL <br />Environmental, Stockton. <br />Nitrate was detected in the sample at a concentration of 17.1 mg/L-N. DBCP was not <br />detected. The laboratory analytical results are attached as Appendix 5.0 this report. _ <br />Nitrate is commonly detected in shallow ground water aquifers of the Central Valley. <br />Application of fertilizers, livestock waste, and untreated septic tank waste can all <br />contribute to nitrate in ground water. Nitrate is mobile and tends to accumulate in <br />shallow ground water zones. Based on work in the Sacramento Valley from the early <br />1900s, it is estimated that under "natural" conditions, ground water contains nitrate at <br />concentrations no more then about 3 mg/L-N. Nitrate may be increasing in areas with <br />concentrations of 5.5 mg/L-N or more (Hull, 1984). The US EPA has set the Maximum <br />Contaminant Level (MCL) for nitrate at 10 mg/L-N. <br />Although nitrate is a naturally-occurring compound necessary for plant growth, it can <br />cause health problems when present at high levels in drinking water. The most <br />common health effect of nitrates in water is methemoglobinemia, or blue baby <br />syndrome, which results in reduced oxygen supply to vital tissues. Pregnant women <br />and certain others can also develop methemoglobinemia. Symptoms include a bluish <br />color of the skin, as well as headache, dizziness, weakness, and difficulty breathing. <br />Ingestion of high levels of nitrates over time can also lead to gastric problems. <br />DBCP is a nematocide and soil fumigant for vegetables and grapes. It is known to <br />cause male reproductive effects and is classified as a probable human carcinogen. <br />Most domestic use of DBCP was discontinued in 1977 through 1979. The US EPA set <br />the MCL at 0.2 parts per billion (ppb, equivalent to ig/L) because it believes that given <br />present technology and resources, this is the lowest level to which water systems can <br />reasonably be required to remove this contaminant should it occur in drinking water. <br />The Maximum Contaminant Level Goal (MCLG) for DBCP is zero. <br />Soil Profile and Geologic Information <br />The Site is depicted on the Geologic map of the San Francisco-San Jose quadrangle, <br />California (Wagner, et al., 1991). The Site is depicted within a map unit of dune sand <br />(Plate 11). <br />The surface and near surface soils located at the Site are reported by the USDA Web <br />Soil Survey to be composed of Delhi loamy sand (Plate 12) (USDA, 2019). The table <br />below presents some selected properties of this soil: <br />LOGE 1924 Page 4