Optimization of the contour ridge system for controlling nitrogen and phosphorus losses under seepage condition |
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| Authors: | A. N. Juan L. I. U. QianJin W. U. YuanZhi |
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| Affiliation: | Shandong Provincial Key Laboratory of Water and Soil Conservation and Environmental Protection, College of Resources and Environment, Institute of Water and Soil Conservation and Environmental Protection, Linyi University, Linyi, Shandong, China |
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| Abstract: | Contour ridging can enhance the occurrence of deep seepage because more rainwater concentrates in the low areas along furrows when soil is saturated. Greater seepage could significantly increase nonpoint source pollution. To optimize the contour ridge system to effectively control nutrient losses under seepage condition, 23 treatments with three variables (row grade, field slope and ridge height) in five levels were arranged in a quadratic orthogonal rotation combination design. Results showed that field slope and interactions between the three factors did not significantly influence NO3‐N and PO4‐P losses. The dominant factor that controlled NO3‐N loss was ridge height, followed by row grade. The smallest NO3‐N loss was obtained at a ridge height of 8.72 cm and a row grade of 7.05°. The dominant factor that controlled PO4‐P loss was ridge height. The optimal ridge height for efficiently controlling PO4‐P loss was 9.79 cm. For simultaneously maximally controlling NO3‐N and PO4‐P losses, a ridge height of 9.26 cm, a row grade of 7.05° and a field slope of 5° were optimum. This study provides guidance for implementing the contour ridge system. |
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| Keywords: | The contour ridge system ridge height row grade seepage the quadratic orthogonal rotation combination design |
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