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WP0042779
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4200/4300 - Liquid Waste/Water Well Permits
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WP0042779
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Entry Properties
Last modified
1/29/2026 11:01:24 AM
Creation date
6/26/2025 1:16:44 PM
Metadata
Fields
Template:
EHD - Public
ProgramCode
4200/4300 - Liquid Waste/Water Well Permits
RECORD_ID
WP0042779
PE
4378 - WELL REPLACEMENT-Existing Well Viable
STREET_NUMBER
7806
Direction
S
STREET_NAME
BORBA
STREET_TYPE
RD
City
STOCKTON
Zip
95206-
APN
16207009
CURRENT_STATUS
Inactive
QC Status
Approved
Scanner
SJGOV\gmartinez
Supplemental fields
Site Address
7806 S BORBA RD STOCKTON 95206-
Tags
EHD - Public
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State Water Resources Control Board <br /> Division of Water Quality <br /> GAMA Program <br /> NITRATE OCCURRENCE <br /> Anthropogenic Sources The largest source of anthropogenic nitrate is industrial production <br /> via the Haber-Bosch process. The Haber-Bosch process catalyzes <br /> atmospheric nitrogen gas with hydrogen to produce ammonia — <br /> which can then be further oxidized to produce nitrate. <br /> Approximately 3 to 5 percent of the world's natural gas production is <br /> consumed in this process, producing approximately 450 million tons <br /> of nitrogen fertilizer per year. High concentrations of nitrate are <br /> often associated with fertilizer production and application. Fertilizer <br /> that is not used by plants can leach into groundwater and ammonia <br /> will rapidly convert to nitrate in the presence of oxygen. <br /> Other anthropogenic sources of nitrate to groundwater include <br /> septic systems, discharges from wastewater and agricultural ponds, <br /> leaky sewer lines, manure fertilizer application, and the production <br /> of explosives. <br /> Natural Sources Nitrogen is an important biologic element and is a required <br /> component of amino acids and proteins. Although nitrogen is the <br /> most abundant gas in the atmosphere (as N2), it is not easily used <br /> by most organisms in this form. N2 must first be transformed to a <br /> more easily utilized compound, such as nitrate, before incorporation <br /> into biologic tissue or plant matter. <br /> Nitrate is naturally produced from N2 through biologic fixation and <br /> from organic nitrogen through mineralization. Minor amounts may <br /> also be produced through oxidation of atmospheric nitrogen by <br /> lightening. Some nitrate from these sources may naturally enter <br /> groundwater. However, these concentrations are generally low. <br /> Nitrate concentrations greater than 10 to 15 mg/L (as NO3) are <br /> generally indicative of anthropogenic nitrate sources (Mueller, <br /> 1995). <br /> Revised November 2017 3 <br />
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