机构地区:[1]太原理工大学水利科学与工程学院,太原030024
出 处:《灌溉排水学报》2020年第11期61-67,共7页Journal of Irrigation and Drainage
基 金:山西省自然科学基金项目(201701D121109,201801D121266);山西省重点研发计划项目(201703D211020-2);国家自然科学青年基金项目(51809189)。
摘 要:【目的】探究微润灌溉水肥一体化条件下土壤水氮分布特征。【方法】通过室内土箱模拟试验,设置了2个压力水头(1 m和1.5 m)和3个氮肥(尿素)水平(0、500和1 000 mg/L),共6个处理,每个处理重复3次。定时记录累积入渗量和湿润锋运移距离,132 h后测定了湿润体不同位置土壤含水率、铵态氮量、硝态氮量,研究了不同压力水头和施氮量对土壤水氮分布的影响。【结果】尿素肥液对微润管出流速率具有明显影响,累积入渗量与时间呈显著的线性相关,压力水头1.5 m、施氮水平0 mg/L处理累积入渗量最大,达到10.55 L,湿润锋运移距离也最远。与1 m压力水头处理组相比,1.5 m压力水头处理组土壤含水率、铵态氮量、硝态氮量均增大;入渗132 h,与500 mg/L氮肥入渗处理相比,1 m压力水头水平下,1 000 mg/L氮肥入渗处理土壤中铵态氮、硝态氮量较小,1.5 m压力水头水平下,1 000 mg/L氮肥入渗处理土壤中铵态氮量、硝态氮量较多。【结论】增大压力水头显著增加了入渗速率、累积入渗量、湿润锋运移距离、土壤含水率、土壤中铵态氮量和硝态氮量;尿素肥液入渗限制了微润灌出流,提高了土壤中铵态氮量、硝态氮量,肥液质量浓度过大会限制尿素在土壤中的分解转化。【Background】Moist-tube irrigation is a new technology to deliver water and fertilizer to the root zone through a semipermeable membrane tube continuously from a line source.The movement of water and nitrogen in soil is a parameter for designing the micro-tube irrigation systems but is poorly studied.【Objective】 The purpose of this paper is to bridge this gap.We experimentally investigated the movement and distribution of water and urea in soil under moist-tube irrigation operated under different water pressures.【Method】The experiment was conducted in a laboratory, and we compared two water pressures: 1.0 m and 1.5 m, and three urea concentrations: 0, 500 and 1 000 mg/L.Overall, we had six treatments.In each treatment, we measured the cumulative infiltration and advancing distance of the wetting fronts.After 132 h of onset of the experiment, we measured the distribution of soil moisture, ammonium and nitrate contents in the wetted soil, which were used to analyze the impact of the water pressure and the urea concentration.【Result】Adding urea impeded water outflow from the moist-tube and the cumulative infiltration in all treatments increased linearly with time.Among all treatments, the maximum accumulated infiltration at the end of the experiment was 10.55 L, achieved when the pressure head and 1.5 m in the absence of urea addition.Increasing urea concentration coupled with a decrease in water pressure slowed down the advance of the wetting fronts.Compared with the water pressure 1 m, the water pressure 1.5 m increased soil moisture, ammonium and nitrate content in the soil.The peak of ammonium content in the soil changed with time and treatments.After 132 h of infiltration at water pressure 1.0 m, the ammonium and nitrate contents in soil under addition of urea at 100 mg/L concentration were lower than that under 500 mg/L concentration, while when the water pressure increased to1.5 m, the ammonium and nitrate contents in soil under 1 000 mg/L concentration were higher than that under 500 mg/L conc
关 键 词:微润灌溉 施氮量 压力水头 累积入渗量 土壤含水率 铵态氮 硝态氮
分 类 号:S275.9[农业科学—农业水土工程]
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