AUTHOR=Hao Kun , Fei Liangjun , Liu Lihua , Jie Feilong , Peng Youliang , Liu Xiaogang , Khan Sher Aslam , Wang Dong , Wang Xiukang 

TITLE=Comprehensive Evaluation on the Yield, Quality, and Water-Nitrogen Use Efficiency of Mountain Apple Under Surge-Root Irrigation in the Loess Plateau Based on the Improved TOPSIS Method

JOURNAL=Frontiers in Plant Science

VOLUME=Volume 13 - 2022

YEAR=2022

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2022.853546

DOI=10.3389/fpls.2022.853546

ISSN=1664-462X

ABSTRACT=<p>The purpose of this study was to know the controlling effects of water and nitrogen coupling on the yield, quality, and water-nitrogen utilization effectiveness of mountain apples under surge-root irrigation in the Loess Plateau. In order to optimize the water and nitrogen irrigation systems of superior quality and high yield, 7 years was selected for the mountain apple test material. The trial was designed with four tiers of irrigation, i.e., full irrigation (FI: 85–100% <italic>θ<sub><italic>f</italic></sub></italic>, where <italic>θ<sub><italic>f</italic></sub></italic> is the field capacity), light deficit irrigation (DI<sub>L</sub>: 70–85% <italic>θ<sub><italic>f</italic></sub></italic>), moderate deficit irrigation (DI<sub>M</sub>: 55–70% <italic>θ<sub><italic>f</italic></sub></italic>), and severe deficit irrigation (DI<sub>S</sub>: 40–55% <italic>θ<sub><italic>f</italic></sub></italic>) and three tiers of nitrogen, i.e., high nitrogen (N<sub>H</sub>: 600 kg ha<sup>–1</sup>), medium nitrogen (N<sub>M</sub>: 400 kg ha<sup>–1</sup>), and low nitrogen (N<sub>L</sub>: 200 kg ha<sup>–1</sup>). The subjective weight attained by the analytic hierarchy methods and the objective weight achieved by the enhanced coefficient of variation method were examined to find the comprehensive weight based on the notion of game hypothesis. Then, the weighted technique for order of preference by similarity to the ideal solution (TOPSIS) process was utilized to comprehensively assess the yield, quality, and water-nitrogen use efficiency of the apples, and a binary quadratic regression model was created between the comprehensive evaluation index and water-nitrogen inputs. The results showed that the effects of irrigation and nitrogen levels on the fruit yield, irrigation water use efficiency (IWUE), total water use efficiency (TWUE), nitrogen partial factor productivity (NPFP), and quality of mountain apples were significant (<italic>P</italic> &lt; 0.05). The apple yield and TWUE first improved and then diminished with an escalating quantity of water-nitrogen inputs, the IWUE diminished with a boost in the irrigation quantity, the NPFP dwindled when the nitrogen amount was increased. The best water and nitrogen inputs for apple yield, quality, or water-nitrogen use efficiency were dissimilar. The best comprehensive evaluation index was DI<sub>L</sub>N<sub>M</sub> treatment, and the worst comprehensive evaluation index was DI<sub>S</sub>N<sub>L</sub> treatment, based on the TOPSIS system. The interval of irrigation and nitrogen attained from the mathematic model ranged in 95–115 mm and 470–575 kg ha<sup>–1</sup>, respectively. The outcome of this study may perhaps offer a theoretical basis for the scientific research of surge-root irrigation and the managing of mountain apple tree irrigation and fertilization in the Loess Plateau, China.</p>