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Modeling nitrate transport in deep u...
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Onsoy, Yuksel Sevim.
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Modeling nitrate transport in deep unsaturated alluvial sediments and assessing impact of agricultural management practices on groundwater quality.
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
正題名/作者:
Modeling nitrate transport in deep unsaturated alluvial sediments and assessing impact of agricultural management practices on groundwater quality./
作者:
Onsoy, Yuksel Sevim.
面頁冊數:
323 p.
附註:
Adviser: Timothy R. Ginn.
Contained By:
Dissertation Abstracts International66-07B.
標題:
Chemistry, Agricultural. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3182518
ISBN:
9780542237553
Modeling nitrate transport in deep unsaturated alluvial sediments and assessing impact of agricultural management practices on groundwater quality.
Onsoy, Yuksel Sevim.
Modeling nitrate transport in deep unsaturated alluvial sediments and assessing impact of agricultural management practices on groundwater quality.
- 323 p.
Adviser: Timothy R. Ginn.
Thesis (Ph.D.)--University of California, Davis, 2005.
Nitrate has been recognized as one of the most widespread sources of surface and groundwater deterioration and associated ecological problems in California due to its intensive use in agriculture, its high mobility and persistence in the subsurface. Experimental studies of nitrogen cycling processes and nitrogen budget estimation have focused on the characterization of the uppermost soil horizon exclusively or on the immediate root zone. Limited empirical evidence exists about the amount of residual nitrate in the deep vadose zone below the root zone and its effect on nitrate leaching to groundwater.
ISBN: 9780542237553Subjects--Topical Terms:
1021829
Chemistry, Agricultural.
Modeling nitrate transport in deep unsaturated alluvial sediments and assessing impact of agricultural management practices on groundwater quality.
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Source: Dissertation Abstracts International, Volume: 66-07, Section: B, page: 3607.
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Thesis (Ph.D.)--University of California, Davis, 2005.
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Nitrate has been recognized as one of the most widespread sources of surface and groundwater deterioration and associated ecological problems in California due to its intensive use in agriculture, its high mobility and persistence in the subsurface. Experimental studies of nitrogen cycling processes and nitrogen budget estimation have focused on the characterization of the uppermost soil horizon exclusively or on the immediate root zone. Limited empirical evidence exists about the amount of residual nitrate in the deep vadose zone below the root zone and its effect on nitrate leaching to groundwater.
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A comprehensive assessment of nitrate fate and transport in a 16-m deep alluvial vadose zone was undertaken to quantify the role of the deep, highly heterogeneous vadose zone in evaluating the long-term impacts of agricultural practices on groundwater quality. The site is a former "Fantasia" nectarine orchard located at the Kearney Research Center, Fresno, California. Over 1,000 core samples were obtained from an extensive core drilling campaign under three nitrate fertilizer subplots with an annual fertilizer rate of 0, 110, and 365 kg N ha-1. Samples were analyzed for soil texture, soil hydraulic and chemical properties. Three modeling approaches, each representing a different subsurface scale of heterogeneity (field, lithofacies, and Darcy's scale), provided three different levels of risk analyses of nitrate leaching to water table in response to the long-term site irrigation and nitrate management practices. None of the three models implemented herein is capable of sufficiently explaining the low nitrate levels observed at the site. The model estimated deep vadose zone nitrate mass is at least four times larger than the measured deep vadose zone nitrate mass. Our findings suggest that, given the highly variable soil texture, soil hydraulic properties and nitrate concentrations observed at the site, preferential flow paths can lead to rapid, highly localized nitrate transport to water table. The significant degree of stratigraphic layering can enhance lateral flow and nitrate exchange among the adjacent subplots. Under the site conditions, denitrification in the deep vadose zone is limited, thus cannot account for the low nitrate levels observed at the site.
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http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=3182518
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