Laserfiche WebLink
[51 CONCLUSIONS <br /> 77dep'ths <br /> ult for Parcel 1 suggests there will be excellent effluent percolation at deeper <br /> e typical shallow leachline depth of 42 inches. This deep test depth of 9 ft can be <br /> considererepresentative of percolation that would take place in sump-type septic structures. <br /> Although there was percolation within the shallow test boring, which indicates that leachlines in <br /> this locale can manage effluent, it was evident that percolative capacity decreases with soil <br /> saturation. It is important to note that all septic systems have a lifespan. This lifespan is <br /> dependant on several factors and is therefore difficult to determine. From the number of repairs <br /> and additions done in the study area, it is evident that septic systems within this area have a <br /> limited lifespan. <br /> It is recommended that if any structure with a septic system is built on the Designated <br /> Remainder, there must be a percolation test done in the area of the proposed leachfield. A <br /> shallow perc test at 42 inches should be conducted in the proposed leachfield area, along with a <br /> deeper test representative of sumps or seepage pits. With concurrence from the Environmental <br /> Health Department, sumps may be preferable to seepage pits since there would only be a 10 ft <br /> separation distance between the floor of a 25-ft pit and the static water table. Sumps would allow <br /> a greater "treatment" distance. In addition, the leachfield must be hydraulically protected during <br /> the rainy season to prevent inundation. A 50% standby replacement area must be incorporated <br /> into the design. All related septic system structures and a possible new domestic well must <br /> comply with the published "distance" requirements from property borders,roads, irrigation fields, etc. <br /> As noted on the attached Leachline Requirement Map,the subject property is just over the border <br /> of the silt/sandy clay soil area. The map indicates that sumps or seepage pits are allowed in this <br /> area. <br /> Septic system leachline failure would primarily result from the advanced formation of a "biomat" <br /> or "clogging mat" on the wetted soil/effluent interface. This mat is composed mostly of aerobic <br /> and anaerobic bacteria and bacterial products consisting of a slime of polyuronides and <br /> polysaccharides. If the soil/effluent interface is well aerated, a variety of soil microfauna such as <br /> nematodes and protozoa may digest the clogging mat bacteria. Since the shallow subsurface <br /> soils consist mostly of tight, silty type soil material, anaerobic conditions may prevail over time <br /> which may theoretically hasten leachline failure. It is assumed that this accounts for the high <br /> number of system failures in this area. Therefore, seepage pits or preferably sumps must be <br /> installed. <br /> The nitrate concentrations determined in the underlying groundwater suggests there has been <br /> very low impact to the deep aquifers and can possibly be considered background nitrate levels. <br /> Regardless of the nitrate concentration of any well water in rural areas, it is recommended that <br /> bottled water should always be used for drinking and cooking purposes. <br /> 4 <br /> Va&y Ag Research <br />