灌溉条件下水分控制的概念原则

M. Romashchenko, Vsevolod Bohaienko, A. Shatkovskyi, T. V. Matyash, S. Kolomiets, S. Shevchuk, Yu. Yu. Danylenko, A. Sardak
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摘要

概述了利用决策支持系统控制灌溉用水的概念原则。根据国内外作者的分析和研究,已经证明,在各种决策支持系统中,浇水控制的有效性在很大程度上取决于确定浇水期限和速率的方法方法。结果表明,在整个生长季节,建立和实施保证土壤根层在狭窄的高湿范围内(接近田间持水量)的灌溉制度,可以充分发挥各类作物品种和杂交品种在灌溉条件下的最大潜力。其依据是,只有采用地理信息系统技术的决策支持系统才有可能实施这种灌溉制度,该系统结合水文地质模型,根据土壤水分潜力作为植物水分供应可用性的标准和地球遥感数据,计算和预测灌溉条件和速率。这样的结合使得对地面观测未覆盖区域的测量和预报数据进行分析和应用成为可能,提供了高效的生态安全灌溉,提供了高的灌溉水生产力和灌溉的生态安全。在灌溉管理实践中实施这些原则,可确保灌溉作物的产量达到现代品种和杂交品种潜力的0.85-0.90,同时减少单位产量的灌溉用水量,并尽量减少或消除由于渗透、洪水过程的发展、土壤盐碱化和二次盐碱化而造成的灌溉水分损失。
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Conceptual principles of watering control under irrigation
The conceptual principles of watering control under irrigation using decision support systems are outlined. Based on the analysis and research of foreign and domestic authors, it has been proven that the effectiveness of watering control depends to a large extent on the methodological approaches used to determine the terms and rates of watering in various decision support systems. It is shown that the most complete potential of varieties and hybrids of various types of crops under irrigation can be realized when establishing and implementing irrigation regimes ensuring the moisture supply of the soil root layer in a narrow range of high humidity (close to field water-holding capacity (FWHC) during the entire growing season. It was grounded that the implementation of such irrigation regimes is possible only by applying decision support systems using GIS technologies, which combine hydrogeological models for calculation and forecasting of watering terms and rates, based on the use of soil moisture potential as a criterion of moisture supply availability for plants and Earth remote sensing data (ERSD). Such a combination makes it possible to analyze and apply measurement and forecasting data to the areas not covered by ground observations and provides highly efficient ecologically safe irrigation providing high irrigation water productivity and ecological safety of irrigation. The implementation of these principles in the practice of irrigation management ensures the yield of irrigated crops as of 0.85-0.90 of the potential of modern varieties and hybrids, while simultaneously reducing the consumption of irrigation water per unit of yield, as well as minimizing or eliminating losses of irrigation water due to infiltration, development of flooding processes, salinization, and secondary salinization of soils.
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