Nitrogen transformation in the subsurface during effluent recharge

Nitrogen transformation in the subsurface during effluent recharge

The transformation of nitrogen in treated effluent during recharge at the Sweetwater Underground Storage and Recovery Facility was examined. The procedure consisted of obtaining samples of percolating water and groundwater below a 3.3 acre infiltration basin, carried out over the recharge season Oct...

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Main Author: Santerior, Paula Denise,1966-
Other Authors: Wilson, L. G.
Language:en
Published: The University of Arizona. 1992
Online Access:http://hdl.handle.net/10150/192068
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spelling ndltd-arizona.edu-oai-arizona.openrepository.com-10150-1920682015-10-23T04:38:15Z Nitrogen transformation in the subsurface during effluent recharge Santerior, Paula Denise,1966- Wilson, L. G. Conklin, Martha The transformation of nitrogen in treated effluent during recharge at the Sweetwater Underground Storage and Recovery Facility was examined. The procedure consisted of obtaining samples of percolating water and groundwater below a 3.3 acre infiltration basin, carried out over the recharge season October 29, 1991 - May 23, 1992 and during an entire 4 day wetting/6 day drying cycle. Nitrate concentrations decreased in the profile and in groundwater throughout the season. During the wetting/drying cycle the nitrate level decreased from a maximum of over 20 mg/L NO₃⁻-N at a depth of 5 feet to about 10 mg/L NO₃⁻-N at 17 feet. Below 17 feet, the nitrate level remained approximately constant. A 36% reduction in total nitrogen concentration was observed between source water and groundwater. Results suggest that soil aquifer treatment (SAT) may be useful in reducing the total nitrogen concentration of effluent. 1992 Thesis-Reproduction (electronic) text http://hdl.handle.net/10150/192068 213469358 en Copyright © is held by the author. Digital access to this material is made possible by the University Libraries, University of Arizona. Further transmission, reproduction or presentation (such as public display or performance) of protected items is prohibited except with permission of the author. The University of Arizona.
collection NDLTD
language en
sources NDLTD
description The transformation of nitrogen in treated effluent during recharge at the Sweetwater Underground Storage and Recovery Facility was examined. The procedure consisted of obtaining samples of percolating water and groundwater below a 3.3 acre infiltration basin, carried out over the recharge season October 29, 1991 - May 23, 1992 and during an entire 4 day wetting/6 day drying cycle. Nitrate concentrations decreased in the profile and in groundwater throughout the season. During the wetting/drying cycle the nitrate level decreased from a maximum of over 20 mg/L NO₃⁻-N at a depth of 5 feet to about 10 mg/L NO₃⁻-N at 17 feet. Below 17 feet, the nitrate level remained approximately constant. A 36% reduction in total nitrogen concentration was observed between source water and groundwater. Results suggest that soil aquifer treatment (SAT) may be useful in reducing the total nitrogen concentration of effluent.
author2 Wilson, L. G.
author_facet Wilson, L. G.
Santerior, Paula Denise,1966-
author Santerior, Paula Denise,1966-
spellingShingle Santerior, Paula Denise,1966-
Nitrogen transformation in the subsurface during effluent recharge
author_sort Santerior, Paula Denise,1966-
title Nitrogen transformation in the subsurface during effluent recharge
title_short Nitrogen transformation in the subsurface during effluent recharge
title_full Nitrogen transformation in the subsurface during effluent recharge
title_fullStr Nitrogen transformation in the subsurface during effluent recharge
title_full_unstemmed Nitrogen transformation in the subsurface during effluent recharge
title_sort nitrogen transformation in the subsurface during effluent recharge
publisher The University of Arizona.
publishDate 1992
url http://hdl.handle.net/10150/192068
work_keys_str_mv AT santeriorpauladenise1966 nitrogentransformationinthesubsurfaceduringeffluentrecharge
_version_ 1718098758185517056

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