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灌排模式对稻田作物水足迹的影响

Effects of Irrigation and Drainage Modes on Crop Water Footprint in Rice Production

  • 摘要: 设置浅水勤灌(FSI)、浅湿灌溉(WSI)、控制灌溉(CI)和蓄水控灌(RC-CI) 4种灌排模式,于2017—2018年进行了桶栽观测试验,利用作物水足迹计算方法量化蓝、绿、灰水足迹,分析灌排模式对水稻水足迹及其组成的影响。结果表明:在不同灌排模式下水稻作物水足迹、组成及其效率均存在差异。所有处理水足迹的范围为846.3~1 132.3 mm,RC-CI处理水足迹最小,而FSI最大。FSI、WSI、CI、RC-CI作物生产水足迹年均值分别为1.26、1.18、1.06、1.08 m3/kg。在水足迹组成方面,蓝、绿、灰水足迹比例分别为10.9%~22.3%、28.8%~44.1%和39.4%~55.0%。FSI处理蓝水比例最大,RC-CI处理绿水比例占有优势。蓄水控灌降低了水稻作物水足迹,其用水结构更为合理,减小了机会成本,能够较好地实现节水减排。本研究可为选择水稻高效灌排模式和农业节水策略制定提供参考。

     

    Abstract: Water footprint quantifies water resource consumption and nitrogen emission simultaneously during crop growth and provides a new method for irrigation and drainage modes evaluation in paddy rice field.Experiments were conducted during two consecutive years(2017 and 2018).Paddy rice was grown under four irrigation and drainage modes in microplots at the same location in each year.These treatments were frequent and shallow irrigation(FSI),wet-shallow irrigation(WSI),controlled irrigation(CI) and rain-catching and controlled irrigation(RC-CI).The general objectives were to calculate and analyze crop water footprint indicators,evaluate effect of modes on these indicators and choose efficient mode.The effect of the treatments on blue water footprint,green water footprint,grey water footprint,crop water footprint(WF) and its composition,and water footprint of production(WFP) was evaluated.These indicators were apparently different.WF of all treatments was within 846.3~1 132.3 mm.WF of RC-CI treatment was the smallest while annual WF of FSI treatment was the largest.The average annual WFP were1.26 m3/kg(FSI),1.18 m3/kg(WSI),1.08 m3/kg(RC-CI) and 1.06 m3/kg(CI),respectively.The percentage of blue,green and grey WF were 10.9%~22.3%,28.8%~44.1% and 39.4%~55.0%,respectively.The percentage of blue WF was the largest for FSI treatment and that of green WF was superior for RC-CI treatment.RC-CI treatment reduced WF and opportunity cost.Besides,WFP of CI treatment and RC-CI treatment was close and relatively small.On the whole,RC-CI should be adopted to save water and reduce pollution caused by nitrogen emission.The research result can provide references for the selection of efficient rice irrigation and drainage mode and the formulation of agricultural water-saving strategies.

     

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