摘要:为探索灌水均匀系数与灌水量对温室番茄产量和土壤水分变化的影响,确定合理的滴灌灌水均匀系数,本研究设置65%、75%和85% 3个灌水均匀度水平,190 mm、220 mm和250 mm 3个灌水量水平,测量番茄生育期内土壤含水率及番茄产量,计算土壤含水率均匀系数和番茄灌溉水利用效率。结果表明,当灌水均匀系数为65%~85%时,土壤水分均匀系数均值(82.57%~93.76%)接近或高于设置的滴灌灌水均匀系数的最大值(85%)。滴灌灌水均匀系数对土壤含水率均匀系数影响权重最大,灌水量、灌水均匀系数、土壤初始含水率均值3个影响因素与土壤含水率均匀系数均值之间呈线性关系(P < 0.05),决定系数为0.918。当土壤初始含水率占田间持水量比重60%,灌水量低于15 mm时,灌水均匀系数与灌水量二者的交互作用与土壤含水率均匀系数为显著线性关系(P < 0.05),其他情况下均无显著性关系。灌水量对产量为显著影响(P < 0.05),灌水均匀系数及二者的交互作用对番茄产量无显著影响,考虑产量及灌溉水分利用效率,灌水量220 mm、灌水均匀系数75%组合为最优组合。因此在西北地区,综合考虑经济性和系统的可靠性,建议下调现行滴灌灌水均匀系数标准。
关键词:滴灌/
灌水均匀系数/
灌水量/
土壤含水率均匀系数/
番茄
Abstract:Drip irrigation is an important factor associated with the water and fertilizer integration technology. The uniformity of drip irrigation is an important performance index to measure its quality. Therefore, choosing the appropriate drip uniformity can achieve the dual targets of cost effectiveness as well as high crop yield. A field experiment was carried out from October 2016 to April 2017 in the Yangling Agricultural Hi-tech Industries Demonstration Zone, Shaanxi Province, China. Experimental treatments applied in the split plot design included:three irrigation quantities in Zone A (190 mm, 220 mm, and 250 mm), and three drip irrigation uniformities in Zone B (65%, 75%, and 85%). In the early stages of planting test, no crop experiment was set up in the same area with only the drip irrigation belt laid, and the experimental treatments were also applied in a split plot divided into main treatment (Zone 1) and sub-treatment (Zone 2). The Zone 1 was treated with three irrigation quantities-5 mm, 10 mm, and 15 mm; and in Zone 2, the same there drip irrigation uniformities to Zone B were set. The results showed that when the irrigation uniformity was between 65% and 85%, the mean soil moisture uniformity during entire growth period was higher than the highest drip irrigation uniformity (85%) approximately. The influence of drip irrigation uniformity on the uniformity coefficient of soil moisture was enormous. There was a significantly linear relationship (P < 0.05) with determination coefficient of 0.918 between the mean soil moisture uniformity and the three factors i.e., irrigation quantity, irrigation uniformity, and initial soil water content. When the initial soil moisture was approximately 60% of the field capacity, and the irrigation amount was less than 15 mm, the interaction between the drip irrigation uniformity and the irrigation amount was linear (P < 0.05) and significantly related to the soil moisture uniformity. In other cases, there was no significant association. The irrigation amount had significant effect on tomoto, the irrigation uniformity and their interaction had no significant effect on tomato yield. Taking into account the yield and use efficiency of irrigation, the combination of irrigation amount of 220 mm and drip irrigation uniformity of 75% was the optimal one. Considering the economics and reliability of the system, the method involving small amount of multiple irrigation should be chosen. This was also suggested for the reduction in the standard of drip irrigation uniformity in the Northwest China.
Key words:Drip irrigation/
Drip uniformity coefficient/
Irrigation amount/
Soil moisture uniformity coefficient/
Tomato
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