孟加拉国秋葵种植微灌自动供水系统的开发

Rafatul Zannat, Md Mostafizar Rahman, Sharmin Akter, M. Rana, M. Oliver, M. A. Ali, Md Moniruzzaman, M. Uddin, K. Saha
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引用次数: 0

摘要

秋葵是一种众所周知的经济上重要的蔬菜,在孟加拉国种植,用于消费和种子生产。与发达国家相比,秋葵的产量较低,可以利用有效的灌溉水来提高产量。在发展中国家,秋葵种植使用传统的灌溉方法,导致大量的水分流失。滴灌是一种很有希望减少水分流失的方法,因为它直接将水注入植物的根区。然而,农民经常抱怨小规模微灌系统的人工检查和头顶水箱的水浪费。一个自动微灌系统可以帮助解决这个问题。这种方法是由Bangabandhu Sheikh Mujibur Rahman农业大学开发的,用于评估秋葵在植物生长、季节性用水和产量因素方面的表现。为了更好地了解专业作物灌溉管理,还调查了水分利用的有效性。试验于2021年3月至5月采用随机完全区组设计(RCBD)建立试验田,采用T1(常规灌溉)、T2(滴灌)和T3(定时滴灌)3种不同处理,4个重复进行对照。采用带传感探头的水泵控制器来调节灌溉槽内的水位,并使用灌溉定时器根据调度来灌溉秋葵田,从而构建了自动化微灌系统。数据显示,只有荚果长度变化显著,其他因素均不显著。单株荚果重和产量等产量构成要素在各处理间无显著差异。T3(定时滴灌)和T1(常规灌溉)水分利用效率最高(12.95 kg/m3),最低(10.47 kg/m3)。研究表明,自动化微灌技术可以比传统灌溉多节约11%的灌溉用水。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of Automated Water Delivery System for Microirrigation in Bangladesh for Okra Cultivation
Okra is a well-known and economically important vegetable grown in Bangladesh for consumption and seed production. The yield of okra is low compared to developed countries that can be increased using irrigation water efficiently. Traditional irrigation methods are used for okra cultivation in the developing countries, resulting in significant water loss. One of the options that appears to be promising for reducing this water loss is drip irrigation since it applies water directly to the plant’s root zone. However, farmers frequently complain about manual inspection and water wastage from the overhead tanks in small-scale microirrigation systems. An automated microirrigation system can help to solve this problem. This approach was developed at Bangabandhu Sheikh Mujibur Rahman Agricultural University to evaluate the performance of okra in terms of plant growth, seasonal water usage, and yield factors. For a better understanding of specialist crop irrigation management, the effectiveness of water utilization was also investigated. The experimental field was set up in a Randomized Complete Block Design (RCBD) from March to May 2021, with three different treatments such as T1 (Conventional irrigation), T2 (Drip irrigation) and T3 (Timer drip irrigation), for comparing the treatments with four replications. To construct an automated microirrigation system, a pump controller with sensing probes to regulate the water level in the irrigation tank and irrigation timers for watering the okra field depending on scheduling were used. According to the data, only the length of the pod varied significantly, whereas the other factors were non-significant. The yield components, such as the weight of pod per plant and yield, did not varied significantly among the treatments. The highest (12.95 kg/m3) and the lowest (10.47 kg/m3) water use efficiency were obtained in T3 (Timer drip irrigation) and T1 (Conventional irrigation) respectively. The study reveals that automated microirrigation technology can save 11% more irrigation water than conventional irrigation.
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