Study on the Suitable Irrigation Amount of Microporous Membrane Water-Fertilizer Integration of Tomato in Spring in Plastic Greenhouse
- 1 Henan Agricultural University, China
Abstract
Water-saving irrigation is an important measure to alleviate the shortage of water resources in China. In this study, the growth, nutrient distribution, quality and yield of Tomato under different irrigation treatments are studied by using microporous membrane water-fertilizer integrated technology and the optimal irrigation water quantity under the condition of microporous membrane water-fertilizer integration was determined. The results show that the stem diameter and the fresh and dry weight of tomato increased under the treatment of microporous membrane irrigation, among which the irrigation of 84 m3.667 m-2 was the best, comparing with the traditional flooding irrigation. Microporous membrane irrigation promotes the accumulation of N, P and K in tomato plants. The organic acid content of tomato fruit was the highest under the treatment of 108 m3.667 m-2 and the lycopene content is the highest under the treatment of 96 m3.667 m-2. However, soluble protein, soluble solids, VC content and sugar acid ratio are the highest under the treatment of 84 m3.667 m-2 and the yield and water use efficiency of tomato are the highest under this treatment. Generally, the optimal irrigation amount of tomato under the condition of microporous membrane water-fertilizer integration is 84 m3.667 m-2. The experiment clarifies the crop water demand characteristics and provides a certain theoretical basis for the application of water-saving irrigation technology and high-yield cultivation.
DOI: https://doi.org/10.3844/ajbbsp.2020.260.269
Copyright: © 2020 Xiao Huaijuan, Du Qingjie, Zhang Jiaxin, Li Juanqi and Wang Jiqing. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Keywords
- Tomato
- Irrigation Amount
- Microporous Membrane
- Growth
- Yield