地下膜调控润灌对冬小麦土壤水分及生长的影响

陶 治; 吴现兵; 程伍群; 魏 亮; 贾志军; 顾宗芳; 高 鑫

引用本文:	陶治,吴现兵,程伍群,等.地下膜调控润灌对冬小麦土壤水分及生长的影响[J].灌溉排水学报,2024,43(7):48-56.
	TAO Zhi,WU Xianbing,CHENG Wuqun,et al.地下膜调控润灌对冬小麦土壤水分及生长的影响[J].灌溉排水学报,2024,43(7):48-56.

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地下膜调控润灌对冬小麦土壤水分及生长的影响
陶治，吴现兵，程伍群，魏亮，贾志军，顾宗芳，高鑫
1.河北农业大学，河北保定 071000；2.河北省水资源研究与水利技术试验推广中心，石家庄 050000；3.保定市灌溉试验站，河北保定 071000

摘要:

【目的】探索地下膜调控润灌下冬小麦适宜灌溉制度。【方法】针对地下膜调控润灌，设定300 m3/hm2（W1）、450 m3/hm2（W2）和600 m3/hm2（W3）3种灌水定额，采取连续灌溉（S1）、间歇灌溉（S2）和传统畦灌（CK）3种灌水模式，通过灌水定额与灌水模式田间小区组合试验，研究土壤水分分布和冬小麦的生长性状、耗水规律、产量构成和水分利用效率。【结果】①W3S1处理和W3S2处理较CK灌溉水更集中分布于作物根系层，下渗量减少，提高了株高、籽粒产量和水分利用效率（WUE）；②地下膜调控润灌下，随着灌水定额的增加，20~60 cm土层土壤含水率增加；S2处理较S1处理可降低灌溉水向80~100 cm土层下渗；③冬小麦各生育阶段株高、叶面积指数（LAI）和全生育期耗水量均和灌水定额呈正相关；灌水模式对株高和LAI的影响不显著，但可显著提高全生育期耗水量；④随着灌水定额增加，S2处理较S1处理分别增产6.52%、13.11%和3.46%，籽粒产量和WUE呈现先增加后减少的趋势。【结论】相较于CK，地下膜调控润灌可实现节约灌溉用水并提高产量，综合考虑灌后土壤水分分布、作物生长性状、耗水规律、产量和WUE，W2S2处理是最优的灌溉制度，可以在获得更高籽粒产量的同时，提高WUE。

关键词: 地下膜调控润灌；土壤水分分布；生长性状；耗水规律；籽粒产量；水分利用效率

DOI：10.13522/j.cnki.ggps. 2023465

分类号:

基金项目:

The effect of subsurface membrane-irrigation on soil moisture and growth of winter wheat

TAO Zhi, WU Xianbing, CHENG Wuqun, WEI Liang, JIA Zhijun, GU Zhongfang, GAO Xin

1. Hebei Agricultural University, Baoding 071000, China; 2. Hebei Water Resources Research and Water Conservancy Technology Test and Extension Center, Shijiazhuang 050000, China; 3. Baoding Irrigation Experiment Station, Baoding 071000, China

Abstract:

【Objective】Surface membrane irrigation is a new irrigation technique developed over the past decades to reduce water leaching and improve water retention in the root zone. This paper investigates the effect of different subsurface-membrane irrigation amounts on soil moisture and winter wheat growth.【Method】The field experiment compared three irrigation amounts: 300 m3/hm2 (W1), 450 m3/hm2 (W2) and 600 m3/hm2 (W3), each irrigation treatment having two irrigation schedules: continuous irrigation (S1), and intermittent irrigation (S2). Traditional border irrigation was taken as the control (CK). During the experiment, we measured water distribution in the soil, as well as growth, water consumption, yield composition and water use efficiency of the wheat.【Result】① Compared to CK, the W3+S1 and W3+S2 improved soil water in the root zone and reduced deep water infiltration, therefore increasing plant height, grain yield and water use efficiency (WUE). ② With the increase in irrigation amount, water content in the 20-60 cm soil layer increased. Compared with S1, S2 reduced the infiltration of irrigation water into the 80-100 cm soil layer. ③ Plant height, leaf area index (LAI) and water consumption of the wheat were positively correlated with irrigation amount, regardless of its growing stages. Irrigation scheduling did not have a significant effect on plant height and LAI, but significantly affected total water consumption of the wheat. ④ With the increase in irrigation amount, S2 increased grain yield by 3.46% to 13.11%, compared with S1, with the increase depending on irrigation amount. With the increase in irrigation amount, the grain yield and WUE increased first and then decreased.【Conclusion】Compared with CK, subsurface membrane irrigation saved water and increased grain yield. Considering soil water distribution, crop growth, water consumption, grain yield and WUE, W2+S2 was optimal for wheat production in the studied region.

Key words: underground membrane control irrigation; soil water distribution; growth traits; water consumption law; grain yield; water use efficiency