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SR0082931_SSNL
Environmental Health - Public
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SR0082931_SSNL
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Last modified
3/10/2021 2:28:27 PM
Creation date
12/16/2020 9:55:56 AM
Metadata
Fields
Template:
EHD - Public
ProgramCode
2600 - Land Use Program
FileName_PostFix
SSNL
RECORD_ID
SR0082931
PE
2602
FACILITY_NAME
3325 E SECTION AVE
STREET_NUMBER
3325
Direction
E
STREET_NAME
SECTION
STREET_TYPE
AVE
City
TRACY
Zip
95205
APN
17309033
ENTERED_DATE
11/25/2020 12:00:00 AM
SITE_LOCATION
3325 E SECTION AVE
P_LOCATION
99
P_DISTRICT
001
QC Status
Approved
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EHD - Public
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20 November 2020 AdvancedGeo <br /> Project No. 20-6205 An Employee-Owned Company <br /> Page 13 of 14 n <br /> Nr = [6.72 inches/year x 34.425 mg/L-N (1-0.30)] + (3.69 inches/year x 1.0 milligram per <br /> liter) _ (6.72 inches/year + 3.69 inches/year) <br /> Nr = 165.62 = 10.41 = 15.91 <br /> Nr = 15.91 ppm nitrogen (NO3_N) <br /> 9.7. IMPACT OF NITROGEN LOADING FROM SITE PROJECT TO <br /> DOWNGRADIENT WATER SOURCES <br /> The recharging of groundwater is the most likely potential feature that could impact future <br /> nitrogen loading. Since the subject property is flat, AGI does not anticipate percolating <br /> effluent will affect any nearby water sources. Based on the volume of wastewater to be <br /> generated and the depth to groundwater (40-45 feet bsg), the potential vertical migration <br /> would not likely degrade the local groundwater. A total of 15.91 ppm of additional nitrogen <br /> is estimated to be added to the site over the long term through wastewater recharge from <br /> the proposed septic system. The nitrogen loading value is above the desired value of <br /> 10 ppm. <br /> 10.0. TOTAL NITRATE IMPACT FROM PROPOSED PROJECT <br /> Based on the method and assumptions described, proposed NO3_N mass of wastewater <br /> and the calculations of the NO3_N loading predicted, the proposed development has the <br /> potential to negatively impact NO3_N loading rates within the aquifer. The soil at the site <br /> appear to be adequate for nitrate degradation and proper leaching of wastewater. A total <br /> of 15.91 ppm of additional nitrogen is estimated to be added to the site over the long term <br /> through wastewater recharge from the proposed septic system. <br /> 11.0. MITIGATION METHODS PROPOSED <br /> To mitigate any known or potential future impacts of nitrate to soil and groundwater from <br /> the proposed septic system, the following mitigations could be implemented: <br /> • Maximize wastewater hold time where practical (retention). <br /> • Avoid use of bioattenuation chemicals (bleach etc.). <br /> • Properly and regularly maintain the property septic system. <br /> • Use EHD criteria for sizing the septic disposal field. <br /> If re-location or expansion of leach fields becomes necessary, leach lines should include <br /> high organic substrates under and surrounding the lines installed. <br />
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