Investigating Irrigation Management in Different Stages of Growth on the Yield and Yield Components of Lentils under Different Levels of Iron Nano-Chelate in Deylaman Region
Subject Areas : Optimal management of water and soil resourcesSayyed Mostafah Sadeghi 1 * , Ali Abdzad Gohari 2
1 - Associate Professor, Department of Agronomy and Plant breeding, Lahijan Branch, Islamic Azad University, Lahijan, Iran
2 - On-Farm Water Management Department, Soil and Water Research Institute, Agricultural Research Education and Extension Organization (AREEO), Karaj, Iran.
Keywords: nano fertilizer, water use, production function, water productivity,
Abstract :
Background and Aim: The increase in water consumption in agriculture has caused irrigation management to be studied by experts and researchers in recent years. Water is one of the most important factors limiting the production of lentils. Increasing water productivity through the application of deficit irrigation methods is one of the important topics in the production of this crop. One of the important needs in agricultural planning is to identify the plant's nutritional needs. Iron is one of the essential elements of low consumption and low mobility that plants need the most among micronutrients. Therefore, the present study was conducted with the aim of investigating the irrigation management and iron nano-chelate on the yield and yield components of lentils in Guilan province.Method: The present experiment is conducted as a split-plot in the form of a randomized complete block design in three iterations in the Deylaman region. The main factor includes four levels namely without irrigation (rainfed), irrigation in the flowering stage, irrigation in the pod formation stage, and irrigation in the flowering and pod formation stage (full) and the sub-factor includes fertilizing nano iron chelate solution during flowering, pod formation time, flowering and podding time and, pre-ripening.Results: The findings of the research demonstrate that the effect of irrigation management and the influence of nano-chelate on grain and biological yields are significant at the level of 1 percent. As a result of irrigation management, the highest grain and biological yields are observed in the flowering and podding stages under irrigation conditions with an average of 1457 and 4380 kg.ha-1, respectively. At different levels of iron nano-chelate fertilizer, in the flowering and podding stage and fertilization in the pre-ripening stage, the highest grain yield is with an average of 834.2 and 861.7 kg.ha-1, respectively, and the maximum biological yield with an average of 3317.4 and 3228.6 kg.ha-1, respectively.Conclusion: With full irrigation, the number of main branches, the number of full pods per plant, and the biological and grain yields increases, and spraying solution of iron nano chelate fertilizer improves the number of nodes in the stem, and the number of full pods in the plant and rises the biological yield. Therefore, full irrigation and use of iron nano chelate fertilizer during the flowering and podding stages are recommended for the local lentil plant in the study area.
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