Analysis of Septic-Tank Density for Four Communities in Iron County, Utah—Newcastle, Kanarraville, Summit, and Paragonah (RI-284)
by Trevor H. Schlossnagle, Janae Wallace, and Nathan Payne This study provides land-use planners with science-based tools for approving new development in a manner that will protect groundwater quality in the communities of Newcastle, Kanarraville, Summit, and Paragonah. Other Information:...
$6.95
Analysis of septic-tank density for three areas in Cedar Valley, Iron County, Utah - a case study for evaluations or proposed subdivisions in Cedar Valley (WRB-27)
By: M. Lowe, J. Wallace, and C. E. Bishop, editors Cedar Valley, Iron County, is experiencing an increase in residential development, much of which uses septic tank soil-absorption systems for wastewater disposal. Septic tank soil-absorption systems are considered one of...
$10.95
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The potential impact of septic tank soil-absorption systems on water quality in the principal valley-fill aquifer, Cedar Valley, Iron County, Utah - assessment and guidelines (RI-239)
By: J. Wallace and M. Lowe Nitrate can be used to identify potential deleterious effects of development using septic tank soil-absorption systems. We use a mass-balance approach to provide a valley-wide assessment of the potential impact of nitrate from septic...
$1.80
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The potential impact of septic tank soil-absorption systems on water quality in the principal valley-fill aquifer, Ogden Valley, Weber County, Utah (RI-237)
By: J. Wallace and M. Lowe Nitrate from sewers, septic tank soil-absorption systems, fertilizer, and other anthropogenic sources is a useful indicator of human impact on ground-water quality. Nitrate can thus be used to identify potential deleterious effects of development...
$1.80
The potential impact of septic tank soil-absorption systems on water quality in the principal valley-fill aquifer, Tooele Valley, Tooele County, Utah - assessment and guidelines (RI-235)
By: J. Wallace and M. Lowe Nitrate from sewers, septic-tank-soil-absorption systems, fertilizer, and other anthropogenic sources is a useful indicator of human impact on ground-water quality. Nitrate can thus be used to identify potential deleterious effects of development which uses...
$3.00
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