| 模拟排水沟渠非点源溶质氮迁移实验研究 |
| 摘要点击 2494 全文点击 967 投稿时间:2015-07-30 修订日期:2015-09-11 |
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| 中文关键词 排水沟渠 非点源污染 氮 迁移转化 实验 |
| 英文关键词 drainage ditch non-point source pollution nitrogen migration and transformation experiment |
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| 中文摘要 |
| 农田排水沟渠是由水-底泥-植物组成的复合生态结构,其间非点源溶质的迁移转化对研究沟渠拦截、 控制和管理农业非点源污染具有重要意义. 本研究以模拟排水沟渠静态实验为基础,以典型非点源溶质氮素为例,分析了实验期内水体、 底泥及芦苇不同介质内氮含量变化过程,分析了底泥吸附与解析、 芦苇生长与衰败等年内不同时期对水体中氮素浓度的影响,探讨了水-底泥-芦苇复合生态体内氮迁移及对水体中氮浓度的影响机制. 结果表明,底泥的吸附与解吸、 芦苇生长的吸收和同化对水体中氮素浓度均有影响,10月之前这种影响表现为促使水体中氮素浓度降低,是水体的氮净化过程; 10月之后这种净化作用开始降低,11月之后表现为促使水体中氮素浓度升高. 同时,模拟沟渠水-底泥-芦苇生态体内氮迁移联系密切,任一介质内或介质间氮素迁移转化都会引起水体中氮素浓度相应调整. |
| 英文摘要 |
| The drainage ditch has a compound ecosystem structure consisting of water, sediment and plants. Migration and transformation of the non-point source solute is important to study interception, control and management of agricultural non-point source pollution in the drainage ditch. Based on the experiment on static simulation of drainage ditches, the article used typical non-point source soluble nitrogen as an example to analyze the changing process of nitrogen content in water, sediment and reeds, and to study the effects of the sediment adsorption and desorption, reeds growth and death in different periods on nitrogen concentration in water. The article discussed nitrogen migration in water-sediment- reeds compound ecosystem and its influence on nitrogen concentration in water. The results showed that both adsorption and desorption in sediment and absorption and assimilation of reeds growth had effect on nitrogen concentration in water. The effect before October was reducing the nitrogen concentration in water, which was the process of nitrogen purification in water. After October, the nitrogen concentration in water increased and made it easy to form secondary nitrogen pollution. Meanwhile, the migration in the water-sediment-seeds ecosystem in simulated drainage ditch had close ties, any migration and transformation of nitrogen in a single medium or between different mediums would cause adjustment of nitrogen concentration in water. |
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