Using age tracers and decadal sampling to discern trends in nitrate, arsenic and uranium in groundwater beneath irrigated cropland

Anthony J. Tesoriero; Karen R. Burow; Lonna Frans; Jonathan V. Haynes; Christopher M. Hobza; Bruce D. Lindsey; John E. Solder

doi:10.1021/acs.est.9b03459

Using age tracers and decadal sampling to discern trends in nitrate, arsenic and uranium in groundwater beneath irrigated cropland

Environmental Science and Technology

By: Anthony J. Tesoriero, Karen R. Burow, Lonna Frans, Jonathan V. Haynes, Christopher M. Hobza, Bruce D. Lindsey, and John E. Solder

https://doi.org/10.1021/acs.est.9b03459

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Data Releases:
- USGS data release - Dissolved gas and tracer concentrations from the Columbia Plateau Aquifer, Vertical Flowpath Study Network
- USGS data release - Dissolved Gas and Tracer Concentrations for the High Plains Aquifer, Vertical Flowpath Study Network
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Abstract

Repeat sampling and age tracers were used to examine trends in nitrate, arsenic and uranium concentrations in groundwater beneath irrigated cropland. Much higher nitrate concentrations in shallow modern groundwater were observed at both the Columbia Plateau and High Plains sites (median values of 10.2 and 15.4 mg/L as N, respectively) than in groundwater that recharged prior to the onset of intensive irrigation (median values of <1 and <4 mg/L as N, respectively). Repeat sampling of these well networks indicates that high nitrate concentrations in modern, shallow groundwater have been sustained for decades, posing a future risk to older, deeper groundwater used for drinking water. In fact, nitrate concentrations in older modern water (30-60 years since recharge) at the High Plains site have increased in the last decade. Groundwater irrigated areas in the Columbia Plateau tend to have higher nitrate concentrations than surface-water irrigated areas suggesting that repeated dissolution of land applied fertilizer during recirculation may be an important factor causing high nitrate concentrations in groundwater. Mobilization of uranium and arsenic by land surface activities is suggested by the higher concentrations of these constituents in modern, shallow groundwater than in older, deeper groundwater at the Columbia Plateau site. Bicarbonate concentrations in modern groundwater are positively correlated with uranium (r=0.72, p<0.01), suggesting bicarbonate may mobilize uranium in this system. A positive correlation between arsenic and phosphorus concentrations in modern groundwater (r=0.55, p<0.01) suggests that phosphate from fertilizer outcompetes arsenate for sorption sites, mobilizing sorbed arsenic derived from past pesticide use or other sources.

Suggested Citation

Tesoriero, A.J., Burow, K.R., Frans, L., Haynes, J.V., Hobza, C.M., Lindsey, B.D., and Solder, J.E., 2019, Using age tracers and decadal sampling to discern trends in nitrate, arsenic and uranium in groundwater beneath irrigated cropland: Environmental Science and Technology, v. 53, no. 24, p. 14152-14164, https://doi.org/10.1021/acs.est.9b03459.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Using age tracers and decadal sampling to discern trends in nitrate, arsenic and uranium in groundwater beneath irrigated cropland
Series title	Environmental Science and Technology
DOI	10.1021/acs.est.9b03459
Volume	53
Issue	24
Publication Date	November 21, 2019
Year Published	2019
Language	English
Publisher	ACS
Contributing office(s)	Oregon Water Science Center
Description	13 p.
First page	14152
Last page	14164