Evaluation of historical nitrate sources in groundwater and impact of current irrigation practices on groundwater quality |
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| Authors: | Xiuhua Liu Shijun Sun Peng Ji Jirka Šimůnek |
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| Affiliation: | 1. Department of Environmental Science and Engineering , Chang'an University , Xi'an , 710054 , China;2. Department of Environmental Sciences , University of California Riverside , Riverside , California , 92521 , USA liuxh68@chd.edu.cn;4. College of Water Resources , Shenyang Agricultural University , Shenyang , 110866 , China;5. Petrochina ChangQing Oilfield Company , Xi'an , 710021 , China;6. Department of Environmental Sciences , University of California Riverside , Riverside , California , 92521 , USA |
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| Abstract: | Abstract Large-scale agricultural activities cause deterioration of groundwater resources throughout the world. This study focuses on the irrigated agricultural district of Jinghuiqu in Shaanxi, China. The objectives are to identify the main sources and processes that control nitrate transport, and to assess the impact of long-term irrigation practices on nitrate leaching. The hydrogeochemistry of major solute constituents and stable isotope ratios of NO3 ? in groundwater were used to identify historical sources of contamination and transformation processes occurring in the shallow groundwater of the Jinghuiqu irrigation district. The N-NO3 ? concentrations in groundwater ranged from 0.0 to more than 100 mg L?1 in April 1990, and from 0.47 to 42.0 mg L?1 in December 2009. Our measurements of N-NO3 ? show that the main reasons for this dramatic decline in N-NO3 ? concentrations from 1990 to 2009 are denitrification, which controls nitrogen types, together with the sharp decline of the groundwater table. The isotope ratios in collected samples showed that the source of nitrate was mainly manure, a result that corresponds with historical data showing that manure was the main nitrate source before the 1980s, and that fertilizers became dominant thereafter. A numerical model was then used to evaluate future impacts of current irrigation practices on groundwater sources. The HYDRUS-1D model was employed first to evaluate the water movement and the N-NO3 ? solute transport for a single irrigation pulse experiment carried out under field conditions, and then in evaluating the long-term impact of irrigation on N-NO3 ? leaching. Simulations showed that, after introducing irrigation, the downward drainage fluxes of N-NO3 ?, and the N-NO3 ? and N-tot concentrations increased at all depths within the 2-m soil profile. This indicates that N concentrations below 1-m depth and in the groundwater could become even more elevated with increased future irrigation. Editor D. Koutsoyiannis Citation Liu, X.-H., Sun, S.-J., Ji, P., and ?im?nek, J., 2013. Evaluation of historical nitrate sources in groundwater and impact of current irrigation practices on groundwater quality. Hydrological Sciences Journal, 58 (1), 1–15. |
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| Keywords: | nitrate stable isotopes irrigation transport and leaching HYDRUS-1D model |
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