灌溉量与有机营养液配方耦合对设施番茄产量、品质及水分利用效率的影响

doi:10.13287/j.1001-9332.202505.016

摘要/Abstract

摘要： 灌溉量与有机营养液的科学耦合对提高基质栽培番茄品质与产量具有重要作用。本文以‘凯德雅丽’番茄为试材,在塑料大棚内采用有机基质栽培方式,依据超前决策灌溉模型计算出的灌溉量(ET),分别在开花坐果期和果实膨大期设置高、中、低3种灌溉量水平(I1:1.2ET+1.4ET,I2:1.0ET+1.2ET,I3:0.8ET+1.0ET)和3种有机营养液配方O1、O2、O3[N∶P∶K含量(mg·L^-1)分别为108∶20∶157、103∶20∶205、105∶20∶213],耦合形成9个处理,分析了灌溉量和有机营养液配方耦合对春、秋两茬番茄生长、光合、产量、品质及水分利用效率的影响,采用层次分析法和熵权法及基于博弈论的组合赋权法计算各指标权重,采用优劣解距离法(TOPSIS)和灰色关联度分析法(GRA)进行各处理的综合评价,筛选最适水肥方案。结果表明: 不同处理对植株形态及光合特性有显著影响,灌溉量的影响大于有机营养液配方,其中I1O2处理单株干物质积累量、单株产量春秋茬均最高,春茬分别为261、5177 g,秋茬分别为234、4742 g,并与其他处理差异显著;I3O2处理的水分利用效率最高,春、秋茬分别为35.66、35.42 g·kg^-1,较其他处理分别增加1.9%～13.8%、3.8%～26.5%;I3O3处理的番茄红素含量(0.73 mg kg^-1)和糖酸比(9.65)表现最优,而I1O2处理的可溶性蛋白(207.45 mg·g^-1)和Vc含量(152.14 mg·kg^-1)显著高于其他处理。综合评价各处理影响权重最大的因子为产量,其次是水分利用效率,I1O2处理的综合评价值最高,为番茄产量、品质和水分利用效率协同提升的最优水肥耦合方案。

关键词: 设施番茄, 灌溉量, 有机营养液, 产量, 品质

Abstract: The coupling of irrigation volume and organic nutrient solution plays an important role in improving the quality and yield of substrate-cultivated tomatoes. We used ‘Kade Yali’ tomatoes as the test material and adopted an organic substrate cultivation in a plastic greenhouse. Based on the irrigation amount (ET) calculated by the advanced decision-making irrigation model, three irrigation levels (I1: 1.2ET+1.4ET, I2: 1.0ET+1.2ET, I3: 0.8ET+1.0ET) were crossed with three organic nutrient solution formulations O1, O2, O3 [(N:P:K content mg·L^-1) were 108:20:157, 103:20:205, 105:20:213 respectively], resulting in nine treatments. We examined the effects of the coupling of volume and organic nutrient solution formulations on growth, photosynthesis, yield, qua-lity, and water use efficiency of tomatoes in spring and autumn. The weights of each indicator were calculated using the analytic hierarchy process, entropy weight method, and a combination of weights based on game theory. The overall evaluation of each treatment was conducted using the TOPSIS method and the GRA method, and the most suitable water and fertilizer scheme was finally selected. The results showed that plant morphology and photosynthetic characteristics varied across treatments. The effect of irrigation volume was greater than that of the formulation of organic nutrient solution. Among them, the I1O2 treatment had the highest dry matter accumulation and yield in both spring and autumn crops, with 261 g and 5177 g in spring and 234 g and 4742 g in autumn, respectively. These values were significantly different from other treatments. The I3O2 treatment had the highest water use efficiency, with 35.66 and 35.42 g·kg^-1 in spring and autumn crops, respectively, an increase of 1.9%-13.8% and 3.8%-26.5% compared to other treatments. The lycopene content of the I3O3 treatment was 0.73 mg·kg^-1. The I1O2 treatment had the highest sugar-acid ratio of 9.65, soluble protein (207.45 mg·g^-1), and Vc content (152.14 mg·kg^-1). The most influential factor in the comprehensive evaluation of the treatments was yield, followed by water use efficiency. The I1O2 treatment had the highest comprehensive evaluation value, representing the optimal combination of tomato yield, quality, and water use efficiency.

Key words: facility tomato, irrigation amount, organic nutrient solution, yield, quality

张佳丽, 路希, 李建明. 灌溉量与有机营养液配方耦合对设施番茄产量、品质及水分利用效率的影响[J]. 应用生态学报, 2025, 36(5): 1431-1439.

ZHANG Jiali, LU Xi, LI Jianming. Influence of coupling irrigation volume and organic nutrient solution formula on yield, quality, and water utilization efficiency of greenhouse tomatoes[J]. Chinese Journal of Applied Ecology, 2025, 36(5): 1431-1439.

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