Optimization of Water and Nitrogen Application Rates for Synergistic Improvement of Yield and Quality in Solar Greenhouse Cucumber Production on the North China Plain.

To address the scientific challenges of low water-fertilizer use efficiency and the difficulty in achieving the synergistic improvement of the yield and quality in solar greenhouse cucumber production on the North China Plain, this study investigated the effects of varying water and nitrogen supplies on cucumber growth, yields, water-nitrogen use efficiency, and quality. The aim was to establish optimized water and nitrogen management strategies for high-yield, high-quality, and resource-efficient cultivation. A two-factor completely randomized design was implemented, with three irrigation levels (W1: 1.0 Ep-20, W2: 0.75 Ep-20, and W3: 0.5 Ep-20) based on cumulative pan evaporation and four nitrogen application amounts (N1: 432 kg·ha, N2: 360 kg·ha, N3: 288 kg·ha, N4: 216 kg·ha). Cucumber growth indicators were observed during the growing season, and the water and nitrogen application rates were scientifically optimized. The results showed that a full water and nitrogen supply enhanced the leaf area index, dry weight accumulation, and yield. Moderate water and nitrogen savings had a minimal impact on plant growth and production while significantly improving the water and fertilizer use efficiency. Using principal component analysis to comprehensively evaluate the cucumber quality, it was found that the irrigation amount had a significant impact on quality, with the quality improving as the irrigation amount decreased. By employing a regression formula and spatial analysis methods, this study optimized the water and nitrogen application rates with the goals of maximizing the cucumber yield, water-nitrogen efficiency, and quality. For spring cucumbers, the recommended combination is an irrigation amount of 225240 mm and a nitrogen application amount of 350380 kg·ha. For autumn cucumbers, the recommended combination is an irrigation amount of 105120 mm and a nitrogen application amount of 375400 kg·ha. This research provides theoretical and technical support for high-yield, high-quality, and efficient irrigation and nitrogen management in solar greenhouses in the North China Plain.