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March 6,2001 <br /> Job Number: LGOO-426 <br /> Page 8 <br /> VII. NITRATE LOADING STUDY <br /> A build up of nitrates in ground water can cause a temporary blood disorder in infants <br /> 4 called methemoglobinemia(blue baby syndrome). Serious and occasionally fatal poisonings of <br /> infants have occurred following the ingestion of water containing nitrate concentrations greater <br /> than 10 mg/1 nitrate as N or 45 mg/l nitrate as NO3. <br /> Because of the concern of nitrate leaching into ground water, a nitrate loading analysis <br /> was required by the County to estimate the average nitrate concentration of percolating water for <br /> �- the subject parcel. If a site is contributing excess nitrogen to ground water, ground water quality <br /> can be impacted. The nitrate sources considered for this project are percolating septic effluent <br /> from the future residences constructed on the parcels and deep percolation of rain water. The <br /> total nitrate concentration of the"treated" septic effluent and deep percolating rain water was <br /> estimated. Dilution of the deep percolating effluent with existing ground water was not <br /> estimated. <br /> The method utilized in this analysis is based on a simple mass balance formula discussed <br /> in a published article by Hantzsche and Finnemore¢ which provides a convenient and simplified <br /> method to estimate long-term ground-water nitrate impacts on an area-wide basis. Hantzsche and <br /> Finnemore found that over a long period of time, water quality in the upper saturated ground- <br /> water zone is closely approximated by the quality of percolating recharge waters. They have <br /> found that nitrate loading is a good planning too] and provides useful information to planners and <br /> local officials but with some real limitations. In Hantzsche and Fennemore's article published in <br /> ..- Ground Water, they mention that"...the equation ignores dispersion, lateral flow, and mixing <br /> with ground water flow from up-gradient areas. These processes would generally contribute to <br /> additional reduction of nitrate-nitrogen concentrations in ground water to the extent that the <br /> `- nitrate-nitrogen concentration of ground-water flow from up-gradient areas is lower." <br /> The Hantzsche and Fennemore equation provides a conservative (worst case) first <br /> approximation of ground-water nitrate-nitrogen concentration resulting from the combined effect <br /> of on-site sewage disposal systems and precipitation. This [the equation and method] is for <br /> estimation of long-term effect(i.e., over years) on ground-water quality, and is not intended for <br /> prediction of seasonal changes. <br /> 6 Hantzshe N.N.,Finnemore,E.J. 1991,Predicating Ground-Water Nitrate-Nitrogen Impacts. Ground <br /> Water,Vol. 30,No.4. <br /> �pf tsps <br /> Z w <br /> O ` <br />