农业机械学报2024,Vol.55Issue(4):272-279,311,9.DOI:10.6041/j.issn.1000-1298.2024.04.027
稻麦轮作高标准农田控制排水对排水与氮素输出削减效果模拟
Simulation of Effect of Controlled Drainage on Reducing Drainage and Nitrogen Output from High Standard Farmland in Rice and Wheat Rotation Area
摘要
Abstract
In the high standard farmland construction in the plain river network areas,improving field drainage capacity for waterlogging reduction may increase drainage and the associated pollutants discharge to the receiving water bodies.So it is necessary to take controlled drainage(CD)measures to mitigate the adverse impact of crop production on the ecological environment.Based on a monitoring study on drainage and water quality processes conducted in the rice and wheat rotation fields in the Yanyun Irrigation District of Yangzhou,Jiangsu Province from 2021 to 2022,an analytical study by using the field hydrological model—DRAINMOD was presented to examine the impact of increasing drainage intensity and controlled drainage(CD)on rice field drainage,nitrogen losses,and irrigation demands based on long-term meteorological records.The simulation results showed that under the traditional drainage(TD)conditions,when the drainage spacing(L)was between 120 m and 20 m and the depth(D)was increased from 60 cm to 120 cm,the predicted drainage and total nitrogen(TN)losses were increased by 9.0%~22.2%,the ammonia nitrogen(NH3-N)loss was increased by 4.0%~16.8%,and the irrigation demand was increased by 9.6%~23.4%.The increases in drainage,irrigation,and nitrogen losses were more pronounced when the drainage intensity was high.Considering the differences in drainage requirements during different periods of rice and wheat rotation,the aforementioned negative effects can be avoided with controlled drainage measures.Under the controlled drainage conditions,when the drainage spacing(L)was at 120~20 m and the depth was at 60 cm,the predicted drainage and TN losses were decreased by 12.0%~22.9%,NH3-N loss was decreased by 3.4%~22.0%,and irrigation demand was decreased by 14.6%~28.5%.When the drainage depth was at 120 cm,the predicted drainage and TN losses were decreased by 19.3%~35.3%,NH3-N loss was decreased by 7.6%~27.2%,and irrigation demand was decreased by 22.9%~40.0%.For smaller drainage spacing,the water-saving and nitrogen reduction effect of CD was more significant.The controlled drainage changed the proportion of surface drainage to subsurface drainage.By restricting subsurface drainage,CD reduced the amount of subsurface drainage by 14%and 23%drainage for drainage depth at 60 cm and 120 cm.The results showed that controlled drainage in the rice and wheat rotation fields had very positive effect on irrigation water-saving,drainage and nitrogen reduction,which can effectively alleviate the negative impact of increasing drainage intensity to improve field drainage capacity.Findings from this research can provide theoretical basis and technical support for the construction of high standard farmland and water environment protection in the rice and wheat rotation areas.关键词
控制排水/氮素/灌溉/高标准农田/DRAINMOD模型/稻麦轮作农田Key words
controlled drainage/nitrogen/irrigation/high standard farmland/DRAINMOD model/rice and wheat rotation fields分类
农业科技引用本文复制引用
罗纨,王嘉诚,贾忠华,刘文龙,卫同辉,邹家荣,朱梦妍,吴慧,彭佳雯..稻麦轮作高标准农田控制排水对排水与氮素输出削减效果模拟[J].农业机械学报,2024,55(4):272-279,311,9.基金项目
国家自然科学基金项目(52379050、51979239) (52379050、51979239)
