盐碱地水肥耦合对基质栽培番茄生长与产量品质的影响

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中文摘要：为探究盐碱地水肥耦合对基质栽培番茄生长的影响，设置 3 组灌溉水平W1(268 mm)，W2(201 mm)，W3(161 mm)和 3 组施肥水平(N-P2 O2-K2 O，kg/hm2)F1(260-200-220 kg/hm2)，F2(208-160-176 kg/hm2)，F3(156-120-132 kg/hm2)，共 9 组耦合处理，以无基质水肥组合作为对照组CK，基于温室大棚试验研究水肥耦合对盐碱地土壤盐分、基质栽培番茄株高茎粗、根系特征、产量与品质的影响，并构建遗传算法多目标优化模型确定盐碱地基质栽培番茄的最优水肥调控策略。结果表明:与CK相比，基质处理株高、茎粗、根系特征、水肥利用效率、产量与品质具有显著优势;基质处理土壤表层盐分含量较低，土壤剖面 0～30 cm表现为积盐过程，30～60 cm表现为脱盐过程;通过AHP-CRITIC主客观组合赋权的VIKOR法对番茄产量、风味品质进行评价，处理W3F1 的利益比率最小，产量与品质最佳;基于遗传算法多目标优化模型求解Pa-reto最优解，确定盐碱地基质栽培番茄的最佳水肥耦合策略为W3F2，研究可为盐碱地高品质果蔬的水肥科学管理提供理论依据。

外文标题：Effects of water and fertilizer coupling on growth,yield and quality of tomato in saline-alkali soil

外文摘要：In order to improve the quality and efficiency of crops in saline-alkali land,three groups of irrigation levels[i.e.W1(268 mm),W2(201 mm)and W3(161 mm)]and three groups of fertili-zation levels[i.e.(N-P2 O2-K2 O,kg/hm2)F1(260-200-220 kg/hm2),F2(208-160-176 kg/hm2)and F3(156-120-132 kg/hm2)],summing up to 9 groups of coupling treatments were set up.Based on the greenhouse experiment,the effects of water and fertilizer coupling on soil salinity,plant height,stem diameter,root characteristics,yield and quality of tomatoes cultivated in saline-alkali soil were studied.And the multi-objective optimization model of the genetic algorithm was constructed to determine the optimal water and fertilizer regulation strategy for tomato cultivation in saline-alkali soil.It turns out that compared with CK,the plant height,stem diameter,root characteristics,water and fertilizer utilization efficiency,yield and quality of tomatoes cultivated in saline-alkali soil have significant advantages.The salt content in the surface soil of the substrate treatment is low,the soil profile of 0-30 cm shows a salt accumulation process,and the soil profile of 30-60 cm shows a desali-nation process.Through the VIKOR method of AHP-CRITIC subjective and objective combination weighting,the yield and flavor quality of tomatoes were evaluated.The benefit ratio of W3F1 treatment is the smallest,and the yield and quality are the best.Based on the genetic algorithm multi-objective optimization model to solve the Pareto optimal solution,the optimal water and fertilizer coupling strategy for tomato cultivation in saline-alkali soil is determined to be W3F2.This study can provide a theoretical basis for the scientific management of water and fertilizer for high-quality fruits and vegeta-bles in saline-alkali soil.

外文关键词：

water and fertilizer couplingsubstrate culturesaline-alkali landsubjective and objective combination empowermentmulti-objective optimization

作者：

赵文举、曹伟、吴克倩、李建承、马宏

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作者单位：

兰州理工大学能源与动力工程学院,甘肃兰州 730050

农业农村部智慧农业节水灌溉装备重点实验室,甘肃兰州 730050

兰州新区农业科技开发有限责任公司,甘肃兰州 730300

关键词：

水肥耦合基质栽培盐碱地主客观组合赋权多目标寻优

基金：

国家自然科学基金甘肃省东西协作专项甘肃省水利厅省级水资源项目(第一批)(2022)甘肃省水利厅省级水资源费项目(第一批)(2023)酒泉市科技计划(第二批)(2023)

项目编号：

5237904223CXNA0025甘水资源发[2022]94号甘水资源发[2023]88号2023CA2060

出版年：

2024

DOI：

10.3969/j.issn.1674-8530.23.0128

排灌机械工程学报

中国农业机械学会排灌机械分会,江苏大学流体机械工程技术研究中心

排灌机械工程学报

CSTPCD北大核心

影响因子：1.055

ISSN：1674-8530

年,卷(期)：2024.42(6)

参考文献量14