Journal
WATER ENVIRONMENT RESEARCH
Volume 82, Issue 3, Pages 227-235Publisher
WATER ENVIRONMENT FEDERATION
DOI: 10.2175/106143009X12487095236397
Keywords
field study; lysimeter; mass balance; leaching; soil
Funding
- Texas Commission on Environmental Quality
- Texas Onsite Wastewater Treatment Research Council, Austin, Texas
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Potential contamination of groundwater because of nitrogen leaching has been an important concern in municipal wastewater land application systems; however, few efforts have made to measure nitrogen leaching (total N, NO(3)(-)-N, and NH(4)(+)-N) under field conditions. This research successfully developed a conceptual nitrogen mass balance model and quantified its components at a wastewater land application system located at the City of Littlefield, Texas, from October 2005 to September 2007. The concentrations of total nitrogen and nitrate-nitrogen in the leachate were significantly less than 10 mg/L, therefore, there was no potential nitrogen contamination to groundwater found at this site during the research period. Linear regression models were analyzed and resulted in R(2) values of 0.918, 0.966, and 0.833 between cumulative applied total nitrogen mass and cumulative leached total nitrogen mass, cumulative applied nitrate-nitrogen mass and cumulative leached nitrate-nitrogen mass, and cumulative applied ammonia-nitrogen mass and cumulative leached ammonia-nitrogen mass, respectively. The nitrogen mass balance design approach for this site resulted in significant nitrogen removal. Organic nitrogen may leach with other forms of nitrogen, and denitrification plays an important role in nitrogen removal during the winter and spring seasons when the grass is dry. Water Environ. Res., 82, 227 (2010).
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