Abstract
The primary goal of all those working in the field of sustainable water management, particularly in the arid and semi-arid zones, is to increase irrigation efficiency, reduce irrigation water losses, and improve water productivity for all crops. This study assessed the automatic irrigation scheduling and irrigation management on the growth, yield, and water productivity of cucumber under greenhouse conditions. A field experiment was conducted using cucumber grown in aplastic greenhouse during the winter of 2017/18 and 2018/19 at the research farm station of the National Research Centre (NRC), El-Noubaria Region, Behaira Governorate, Egypt. In a split-plot experiment, two different methods to control irrigation scheduling (manual control (MC) and automatic control (AC)) were used in the main plots and three deficit irrigation treatments (100% of full irrigation (FI), 80% of FI, and 60% of FI). Through the obtained results, it was found that the use of the automatic control of the irrigation schedule led to an improvement in the productivity and quality characteristics of the cucumber crop. Automatic irrigation control created healthy conditions for the plant roots located under the least water stress. This led to an increase in nitrogen uptake at the ages of 3, 5, 7, and 9 weeks after planting in addition to improving the total leaf area and the chlorophyll content of leaves, which consequently had a greater effect on increasing yield and water productivity of cucumber. Although the highest values of cucumber productivity were obtained with irrigation at 100% of FI, there were no significant differences between 100% FI and 80% of FI, therefore it is preferable to irrigate at 80% of FI, and this means saving 20% of irrigation water that can be used to irrigate other areas. The SALTMED model simulating all of the following evaluation criteria performed well for soil moisture content and N-uptake as well as the leaves area, the yield, and water productivity of cucumber for all treatments for the two growing seasons 2017/18 and 2018/19, with the overall R2 of 0.882, 0.903, 0.975, 0.907, and 0.933, respectively.
Highlights
Water scarcity and its shortage are one of the most important and serious problems and challenges facing the irrigation process in the Arab Republic of Egypt and arid and semi-arid regions, the necessity to reduce the consumption of irrigation water
The agricultural production sector faces a great and dangerous challenge in increasing food production with less irrigation water, which can be achieved by many different technologies that lead to increased crop water productivity [6]
It can be concluded that to provide optimum irrigation water and improve the yield and water productivity of cucumbers under greenhouse conditions in dry sandy soils, it is recommended to use the automatic control of the irrigation schedule with 80% of the full irrigation for the growth and production of cucumbers
Summary
Water scarcity and its shortage are one of the most important and serious problems and challenges facing the irrigation process in the Arab Republic of Egypt and arid and semi-arid regions, the necessity to reduce the consumption of irrigation water. This can be achieved by many means, including the development and improvement of new and innovative technologies that can be an effective tool [1,2]. To save part of the limited irrigation water, the application of modern irrigation methods and associated technologies is an important concept that must be undertaken and worked on in arid and semi-arid regions as is the case in Egypt [3,13]
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